Tesla Motors Inc. SWOT Analysis
Strengths
-The quality of Tesla electric cars on the market can compete with the likes of BMW and Mercedes
-Brand Equity -Product Quality -Eco-friendly Product Line
-Tesla Superchargers are much faster than other charging stations. It covered most regions in the U.S and had made Tesla a feasible option for its consumers,
-The showroom technique of selling cars appeals to consumers
Weaknesses
-Tesla is not able to produce enough to meet consumers demand. Compare to other companies with more capital.
-Batteries are inefficient regarding mileage and the cost associated with producing the battery.
– Limited variety is provided for consumers.
-The selling price is very high.
-Majority of production is in the U.S. Shipping cost is high to deliver vehicles around the world.
Opportunities
-Oil is becoming more scarce and expensive; there will be high demand for electric cars.
- Increase Market Share through High-Growth EV Industry.
-Demand for electric cars is growing -Solar power technology is advancing -More low priced models to tap into the rising middle-class market. -Autonomous driving technology has become popular, and Tesla has plans to release fully autonomous vehicles.
Threats
-Tesla is facing intense competition from luxury and environment-friendly brands.
- Tesla has a premium image, and it will take time to break this image and bring affordable vehicles to consumers. Which will be an excellent way to reduce the competitive threat.
-Legal and regulatory troubles can be costly and can lead to an increase in costs. Tesla operates in many countries and subject to legal and political regulation in those markets.
-People do not want to deal with charging and the amount of time it takes and they believe charges do not give much mileage -Tesla is always the subject of unfair scrutiny.
January 1, 2015. Elon Musk, chief executive officer (CEO) of Tesla is taking it easy on this New Year’s
Day. While having his coffee, he scrolls through some recent issues of The Wall Street Journal on his iPad.
A headline from one current story jumps out at him, “Gasoline prices have declined for 88 consecutive
days, the longest streak of falling prices on record.”1 The slide in gas prices, which began in September
2014, also happened to coincide with the slide in Tesla Motors (TSLA) stock. With increasing oil, and
therefore gas, prices, people had an incentive for purchasing electric cars. Now with gas prices drop-
ping, the incentive to buy would decrease, and the demand for the product would probably drop. This
was one of the challenges facing Musk on this New Year’s Day. Tesla was confronting increasing com-
petition and economic headwinds that were likely going to lower the demand for electric cars. At the
same time, Tesla needed to ramp up production volume to drive down per-vehicle costs.
Musk is a serial entrepreneur longing to leave a legacy, and he believes that Tesla just might be th.
) Tesla Motors (in 2013) Will Sparks Fly in the Automobil.docxhoney725342
)
Tesla Motors (in 2013): Will Sparks Fly in the Automobile Industry?
FRANK T. ROTHAERMRL
ERIN ZIMMER
• MHE-FTR-017
0077645065
Tesla Motors (in 2013): Will Sparks Fly in the Automobile
Industry?
AUGUST 8, 2013. It is 1:04 a.m. in Fremont, California, and Tesla Motors CEO, chairman, and product archi-
tect, Elon Musk, is wide-awake at his desk in the Tesla Motors manufacturing facility taking the last sip from a can
oflow-carb Monster Energy drink. He has barely slept in two days and has over 250 unread e-mails in his inbox,
40 some new messages on his voicemail, and a full day of meetings ahead of him that are unlikely to end before
10:30 p.m. In addition, he has a board of directors meeting that is fast approaching, at which he needs to present
the latest manufacturing and financial information for Tesla Motors. The board will take even greater interest in
these details now that the stock price has crested the $150 mark.
Musk reaches for his smartphone to check the latest round of urgent text messages as he glances at the award for
the Tesla Model Son his desk-2013 Motor Trend Car of the Year-and smiles. As a serial entrepreneur, he is chas-
ing his dream: to leave a legacy. Musk has been described as "Henry Ford and Robert Oppenheimer in one person,"1
as well as "Tony Stark, the eccentric inventor better known as Iron Man."2 Indeed, Musk made a cameo appearance
in Iron Man 2. He believes Tesla just might be the compati.y through which he can leave his mark in the history
books. However, with several pressing issues and three companies to run, can he find a way to make it all work?
As Musk attempts to prioritize all of the critical information that must be reviewed for the day ahead, he con-
templates the many obstacles still in his path at Tesla Motors. Is Tesla the next great American car company? Can
it disrupt the market with electric vehicles just as Japanese and Korean car companies did in the past with their
high-quality, low-fuel-consumption combustion vehicles? What is the competition doing to compete with Tesla,
and how will Tesla need to change or adjust its strategy accordingly? Can an electric car company really create
a sustainable competitive advantage with a limited infrastructure? Is Tesla's business model sustainable? Most
importantly, can Tesla scale production to meet demand for the Model S and its upcoming Model X while main-
taining the same high quality and yet drive down costs? Or, should Musk seek to either sell to an established car
company, or partner even more closely with one that already has an equity stake in Tesla?
As the time nears 2: 18 a.m., Musk curls up on the sofa in his office and wonders, "What will the next few years
bring for this company, and what should I do to ensure its success?"
Elon Mnsk: Engineer Entrepreneur Extraordinaire
In 1989, Elon Musk left his native South Africa at age 17 to avoid being conscripted into the army. Says Musk,
"I don't have an is ...
One of our presentation during Strategic Management class in KDI School of Public Policy and Management, South Korea. All graphics and information used in this slide belong to the original producer and owner. This slide is for educational purpose only.
Tesla is an American multinational automotive and clean energy company which is headquartered in Austin, Texas. Tesla designs and manufactures electric vehicles (electric cars and trucks), battery energy storage from home to grid scale, solar panels and solar roof tiles, and related products and services. Tesla is one of the world`s most valuable companies and remains the world`s most valuable automaker with a market capitalization of more than US$550 billion.
The Tesla Model S had received widespread praise and acclaim.docxchristalgrieg
The Tesla Model S had received widespread
praise and acclaim not only as the world’s best
electric vehicle but also as a product far superior
to any other brand or model of electric vehicle cur-
rently on the market. In 2013, the Model S was the
most awarded car in the United States. In picking
the 2014 Tesla Model S as the “best overall” model
out of 260 cars tested, Consumer Reports awarded
the Model S a score of 99 out of 100 (the highest
score any vehicle had ever received from the mag-
azine) and described it as “a technological tour de
force” with “blistering acceleration, razor-sharp
handling, compliant ride, and versatile cabin.”1 The
sleek styling and politically correct power source
of the Tesla Model S was thought to explain why
thousands of wealthy individuals in North America
and Europe—anxious to be a part of the migration
from gasoline-powered vehicles to electric-powered
vehicles and to publicly display support for a cleaner
environment—had become early purchasers and
advocates for the vehicle. Indeed, word-of-mouth
praise for the Model S among current owners and
glowing articles in the media were so pervasive that
Tesla had not yet spent any money on advertising to
boost customer traffic in its showrooms. In a presen-
tation to investors, a Tesla officer said, “Tesla own-
ers are our best salespeople.”2
In fall 2013, the Model S ranked as the best-
selling car in 8 of the 25-wealthiest zip codes in the
United States, as ranked by Forbes.3 At the top of
that list was Atherton, California, a Silicon Valley
town near Tesla’s Palo Alto headquarters where the
median home price in 2013 was $6.65 million. Other
Tesla Motors’ Strategy to Revolutionize
the Global Automotive Industry
Arthur A. Thompson
The University of Alabama
I
n his February 2014 Letter to Shareholders, Elon
Musk—an early investor in Tesla Motors and its
current chairman and CEO—was pleased with the
company’s future prospects. Tesla’s strategy was
producing rapidly improving results, and by all indi-
cations the company’s execution of the strategy was
very much on track. Musk’s report left little doubt that
Tesla Motors was making good progress in its journey
to manufacture premium-quality, high-performance
electric vehicles capable of winning widespread
customer acceptance and accelerating the world’s
transition from carbon-producing, gasoline-powered
vehicles to energy-efficient, environmentally respon-
sible electric vehicles.
After suffering five years of losses total-
ing $943.5 million on combined revenues of just
$861 million between 2008 and 2012, Tesla delivered
22,477 of its recently introduced Model S vehicles
to customers in 2013. Production rates had recently
increased to 600 vehicles per week and were expected
to reach 1,000 vehicles per week by year-end 2014.
Tesla reported global revenues of $2.0 billion in 2013
and over $100 million in net income on a non-GAAP
basis. Deliveries to customers in Eu ...
) Tesla Motors (in 2013) Will Sparks Fly in the Automobil.docxhoney725342
)
Tesla Motors (in 2013): Will Sparks Fly in the Automobile Industry?
FRANK T. ROTHAERMRL
ERIN ZIMMER
• MHE-FTR-017
0077645065
Tesla Motors (in 2013): Will Sparks Fly in the Automobile
Industry?
AUGUST 8, 2013. It is 1:04 a.m. in Fremont, California, and Tesla Motors CEO, chairman, and product archi-
tect, Elon Musk, is wide-awake at his desk in the Tesla Motors manufacturing facility taking the last sip from a can
oflow-carb Monster Energy drink. He has barely slept in two days and has over 250 unread e-mails in his inbox,
40 some new messages on his voicemail, and a full day of meetings ahead of him that are unlikely to end before
10:30 p.m. In addition, he has a board of directors meeting that is fast approaching, at which he needs to present
the latest manufacturing and financial information for Tesla Motors. The board will take even greater interest in
these details now that the stock price has crested the $150 mark.
Musk reaches for his smartphone to check the latest round of urgent text messages as he glances at the award for
the Tesla Model Son his desk-2013 Motor Trend Car of the Year-and smiles. As a serial entrepreneur, he is chas-
ing his dream: to leave a legacy. Musk has been described as "Henry Ford and Robert Oppenheimer in one person,"1
as well as "Tony Stark, the eccentric inventor better known as Iron Man."2 Indeed, Musk made a cameo appearance
in Iron Man 2. He believes Tesla just might be the compati.y through which he can leave his mark in the history
books. However, with several pressing issues and three companies to run, can he find a way to make it all work?
As Musk attempts to prioritize all of the critical information that must be reviewed for the day ahead, he con-
templates the many obstacles still in his path at Tesla Motors. Is Tesla the next great American car company? Can
it disrupt the market with electric vehicles just as Japanese and Korean car companies did in the past with their
high-quality, low-fuel-consumption combustion vehicles? What is the competition doing to compete with Tesla,
and how will Tesla need to change or adjust its strategy accordingly? Can an electric car company really create
a sustainable competitive advantage with a limited infrastructure? Is Tesla's business model sustainable? Most
importantly, can Tesla scale production to meet demand for the Model S and its upcoming Model X while main-
taining the same high quality and yet drive down costs? Or, should Musk seek to either sell to an established car
company, or partner even more closely with one that already has an equity stake in Tesla?
As the time nears 2: 18 a.m., Musk curls up on the sofa in his office and wonders, "What will the next few years
bring for this company, and what should I do to ensure its success?"
Elon Mnsk: Engineer Entrepreneur Extraordinaire
In 1989, Elon Musk left his native South Africa at age 17 to avoid being conscripted into the army. Says Musk,
"I don't have an is ...
One of our presentation during Strategic Management class in KDI School of Public Policy and Management, South Korea. All graphics and information used in this slide belong to the original producer and owner. This slide is for educational purpose only.
Tesla is an American multinational automotive and clean energy company which is headquartered in Austin, Texas. Tesla designs and manufactures electric vehicles (electric cars and trucks), battery energy storage from home to grid scale, solar panels and solar roof tiles, and related products and services. Tesla is one of the world`s most valuable companies and remains the world`s most valuable automaker with a market capitalization of more than US$550 billion.
The Tesla Model S had received widespread praise and acclaim.docxchristalgrieg
The Tesla Model S had received widespread
praise and acclaim not only as the world’s best
electric vehicle but also as a product far superior
to any other brand or model of electric vehicle cur-
rently on the market. In 2013, the Model S was the
most awarded car in the United States. In picking
the 2014 Tesla Model S as the “best overall” model
out of 260 cars tested, Consumer Reports awarded
the Model S a score of 99 out of 100 (the highest
score any vehicle had ever received from the mag-
azine) and described it as “a technological tour de
force” with “blistering acceleration, razor-sharp
handling, compliant ride, and versatile cabin.”1 The
sleek styling and politically correct power source
of the Tesla Model S was thought to explain why
thousands of wealthy individuals in North America
and Europe—anxious to be a part of the migration
from gasoline-powered vehicles to electric-powered
vehicles and to publicly display support for a cleaner
environment—had become early purchasers and
advocates for the vehicle. Indeed, word-of-mouth
praise for the Model S among current owners and
glowing articles in the media were so pervasive that
Tesla had not yet spent any money on advertising to
boost customer traffic in its showrooms. In a presen-
tation to investors, a Tesla officer said, “Tesla own-
ers are our best salespeople.”2
In fall 2013, the Model S ranked as the best-
selling car in 8 of the 25-wealthiest zip codes in the
United States, as ranked by Forbes.3 At the top of
that list was Atherton, California, a Silicon Valley
town near Tesla’s Palo Alto headquarters where the
median home price in 2013 was $6.65 million. Other
Tesla Motors’ Strategy to Revolutionize
the Global Automotive Industry
Arthur A. Thompson
The University of Alabama
I
n his February 2014 Letter to Shareholders, Elon
Musk—an early investor in Tesla Motors and its
current chairman and CEO—was pleased with the
company’s future prospects. Tesla’s strategy was
producing rapidly improving results, and by all indi-
cations the company’s execution of the strategy was
very much on track. Musk’s report left little doubt that
Tesla Motors was making good progress in its journey
to manufacture premium-quality, high-performance
electric vehicles capable of winning widespread
customer acceptance and accelerating the world’s
transition from carbon-producing, gasoline-powered
vehicles to energy-efficient, environmentally respon-
sible electric vehicles.
After suffering five years of losses total-
ing $943.5 million on combined revenues of just
$861 million between 2008 and 2012, Tesla delivered
22,477 of its recently introduced Model S vehicles
to customers in 2013. Production rates had recently
increased to 600 vehicles per week and were expected
to reach 1,000 vehicles per week by year-end 2014.
Tesla reported global revenues of $2.0 billion in 2013
and over $100 million in net income on a non-GAAP
basis. Deliveries to customers in Eu ...
Tesla Motors’ Strategy to Revolutionize the Global Automotive IndustryTran Thang
the Case indicate the strategy of Tesla and give the information for answer questions:
What are the key elements of Tesla Motors' strategy?
which one of the five generic competitive strategies Tesla is employs?
The following presentation is on the topic-TESLA
It includes :-
# Origin of tesla
# Its foundation
# TESLA'S mission and vision
# Strengths
# Weaknesses
# Opportunity
# Threats
# Its strategy
# Market capture
# Future plan
# Financial problems
# Pricing
# Profit
# FUTURE OF TESLA
# TESLA IN INDIA
Tesla, Inc. (previously known as Tesla Motors, Inc.), is an Am.docxbradburgess22840
Tesla, Inc. (previously known as Tesla Motors, Inc.), is an American car maker and energy company established in Palo Alto, California. The association has some expertise in electric vehicle production and, through its SolarCity backup, solar panel board manufacturing. Tesla works in various assembly plants and production plants, such as Gigafactory 1 close to Reno, Nevada, and its core vehicle producing office at Tesla Factory in Fremont, California. As of March 2019, Tesla sells Model X, 3, and S cars. It is tolerating bookings for the Roadster (2020), Model Y, and Semi vehicles. Tesla additionally sells Powerpack, Megapack, and Powerwall batteries, Solar based panel boards, Solar based rooftop tiles [footnoteRef:1]. [1: Introduction (Reference 1)]
Tesla was established in July 2003, by engineers Marc Tarpenning and Martin Eberhard, under the name Tesla Motors. The organization's name is a honor to Nikola Tesla who was an engineer. In the initial stages of Series A funding, Tesla Motors was joined by Elon Musk, Ian Wright and Ian Wright, everyone who joined the company are permitted to call themselves as co-founders of the corporation. Elon Musk, who in the past worked as Chairperson and is the current CEO, said that he envisioned Tesla Motors as an independent automaker and technology organization, went for in the long run offering electric vehicles at costs reasonable to the normal customer. Tesla Motors changed its name to Tesla in February 2017 [footnoteRef:2]. [2: Tesla motors Inc.]
Following 10 years in the market, Tesla situated as the world's first-class plug-in vehicle creator in 2018, both as a brand and via car gathering, with 245,240 units were conveyed with a piece of the overall industry of 12% in the module portion vehicle deals. Tesla vehicle deals in the United States of America extended by 280% from 48,000 out of 2017 to 182,400 by 2018, and around the world were expanded by 138% from 2017. In 2019, Tesla got support to start their generation in China [footnoteRef:3]. [3: Tesla cars ranked as top-rated plug-in car maker]
As of March 2018, Tesla had given 6 product recalls for the Model S, 2 for the Model X, two for the Roadster [footnoteRef:4]. [4: Recalls]
On June 4, 2017, the (American Automobile Association -AAA) raised insurance rates for Tesla car buyers following a report from the (Highway Loss Data Institute - HLDI). The report presumed that the Model S crashes 46% more frequently and is fifty percent more costly to fix it when compared to the other cars in the industry [footnoteRef:5]. Likewise, the Model X was determined to crash 41% more frequently and to be 89% more costly to fix than comparative vehicles [footnoteRef:6]. Accordingly, American Automobile Association increased insurance rates on Tesla vehicles by 30%. Tesla said that the investigation is "severely flawed and not reflective of reality”, in any case, Tesla neglected to give any conflicting numbers. Presently, Russ Rader, the represen.
The ScenarioYou are working for the Federal Aviation Administr.docxjoshua2345678
The Scenario
You are working for the Federal Aviation Administration’s Safety Team (FAASTeam). Your particular workgroup is preparing a presentation for the annual Pan American Safety Summit (PASS) that reports the findings of FAASTeam research documenting typical injuries in minor small plane crashes. Your supervisor has assigned you the specific task of reviewing and editing the presentation’s data visualizations. Your teammates are less experienced with presenting technical information, and you have a reputation for being a skilled designer.
Your supervisor, Margaret Farnsworth, sends you the graphics your teammates have developed in a memo that asks you to edit their work: “I want you to work with the graphics that Tiffany Marcus, Jacob Klochner, and Julia Yutani have developed for this year’s PASS conference.”
You ask Margaret what she is looking for in revisions to the graphics. “They’re good researchers,” she replies. “However, they don’t always choose the most appropriate kind of graphics. They also unnecessarily complicate their graphics with too much junk and fluff. Their graphics are difficult to read and to decipher. Please edit them for appropriateness and clarity.”
You find the following graphics attached to the memo:
Figure 1. Tiffany Marcus
Figure 2. Jacob Klochner
Figure 3. Julie Yutani
You send your colleagues a memo asking them what they are trying to convey in each graphic.
Tiffany Marcus replies, “In my graphic, I want to show the distribution of the most common causes of small plane crashes.”
Jacob Klochner replies, “I’m trying to show how the use of restraint devices affect pilots' risk of sustaining serious or fatal injuries in four body regions. I want to show that arm injuries are slightly more likely when restraint devices are properly worn than without them, but that lower extremity injuries – the type that often lead to lifelong disabilities – are significantly lower.”
Julia Yutani replies, “I want to demonstrate the average number of moderate lower-extremity injuries occurring annually to pilots in minor small plane crashes when restraint devices are properly worn. I want to communicate the scope of the issue. I want people to know that an average total of 17,699 lower extremity injuries occur annually in small plane crashes involving mechanical error where the pilot is properly wearing their restraint device.”
You respond to Julia asking, “What type of injuries are ‘tib.plat’ and ‘tib.shaft?”
Julia replies, “They’re both types of injuries to the tibia, the lower leg.”
You thank your colleagues and tell them that you will have their graphics reviewed, edited, and ready for the presentation by the end of the week.
AUGUST 8, 2013. It is 1:04 a.m. in Fremont, California, and Tesla Motors CEO, chairman, and product archi-
tect, Elon Musk, is wide-awake at his desk in the Tesla Motors manufacturing facility taking the last sip from a can
of low-carb Monster Energy drink. He has barely slept in two days and .
Tesla designs and manufactures electric vehicles (electric cars and trucks), battery energy storage from home to grid-scale, solar panels and solar roof tiles, and related products and services.
is one of the world's most valuable companies and remains the world's most valuable automaker with a market capitalization of more than US$760 billion.
A Marketing analysis for TESLA company in DBA program by Cairo University. It discussing how TESLA is competing Electric Vehicle Market and advancing the development of such Sector. In addition, Tesla is taking further steps toward future by inventing futuristic cars and innovative technology.
Case 14 Tesla Motors Melissa A. Schilling In 2013, TDinahShipman862
Case 14
Tesla Motors
Melissa A. Schilling
In 2013, Tesla Motors was a 4500-person company on track to set history. It had created two cars that most people agreed were remarkable. It had posted its rst quarterly pro t in 2013, and had repaid its government loans ahead of the major auto conglomerates. Most im- portantly, it looked like it might
survive
. Perhaps even thrive. This was astonishing as there had been no other successful auto manufacturing start up in the U.S. since the 1920s.
The road leading up to Tesla’s position in 2013 had not always been smooth, and there were many doubts that still lingered. Tesla had bene ted from the enthu- siasm of the “eco-wealthy”—a rather narrow portion of the market. How would Tesla fare when it was in direct competition with General Motors, Ford, and Nissan for the mass market? Would it be able to turn a sustainable pro t on its automaking operations? Furthermore, some questioned whether Tesla’s goals to sell to the mass market even made sense. In the niche market, it had a privileged position with customers that were relatively price-insensitive and were seeking a stylish, high per- formance car that made an environmental statement. To compete for the mass market, the car would have to pro- vide good value for the money (involving trade-offs that might con ict with Chairman Elon Musk’s ideals), and the obstacles to charging would have to be overcome.
History of tesla
In the year 2003, an engineer named Martin Eberhard was looking for his next big project. A tall, slim man with a mop of gray hair, Eberhard was a serial entrepre- neur who had launched a number of start-ups, including a company called NuvoMedia, which he sold to Gemstar
in a $187 million deal. Eberhard was also looking for a sports car that would be environmentally friendly—he had concerns about global warming and U.S. depen- dence on the Middle East for oil. When he didn’t nd the car of his dreams on the market he began contem- plating building one himself, even though he had zero experience in the auto industry. Eberhard noticed that many of the driveways that had a Toyota Prius hybrid electric vehicle (or “dork mobile” as he called it) also had expensive sports cars in them—making Eberhard speculate that there could be a market for a high per- formance environmentally friendly car. As explained by Eberhard, “It was clear that people weren’t buying a Prius to save money on gas—gas was selling close to in ation-adjusted all-time lows. They were buying them to make a statement about the environment.”i
Eberhard began to consider a range of alternative fuel options for his car: hydrogen fuel cells, natural gas, die- sel. However he soon concluded the highest ef ciency and performance would come from a pure electric ve- hicle. Luckily for Eberhard, Al Cocconi (founder of AC Propulsion and one of the original engineers for GM’s ill-fated EV-1) had concluded the same thing, and had produced a car called the tzero. The tz ...
In 2013, Tesla Motors was a 4500-person company on track to .docxwilcockiris
In 2013, Tesla Motors was a 4500-person company on
track to set history. It had created two cars that most
people agreed were remarkable. It had posted its !rst
quarterly pro!t in 2013, and had repaid its government
loans ahead of the major auto conglomerates. Most im-
portantly, it looked like it might survive. Perhaps even
thrive. This was astonishing as there had been no other
successful auto manufacturing start up in the U.S. since
the 1920s.
The road leading up to Tesla’s position in 2013 had
not always been smooth, and there were many doubts
that still lingered. Tesla had bene!ted from the enthu-
siasm of the “eco-wealthy”—a rather narrow portion of
the market. How would Tesla fare when it was in direct
competition with General Motors, Ford, and Nissan for
the mass market? Would it be able to turn a sustainable
pro!t on its automaking operations? Furthermore, some
questioned whether Tesla’s goals to sell to the mass
market even made sense. In the niche market, it had a
privileged position with customers that were relatively
price-insensitive and were seeking a stylish, high per-
formance car that made an environmental statement. To
compete for the mass market, the car would have to pro-
vide good value for the money (involving trade-offs that
might con"ict with Chairman Elon Musk’s ideals), and
the obstacles to charging would have to be overcome.
HISTORY OF TESLA
In the year 2003, an engineer named Martin Eberhard
was looking for his next big project. A tall, slim man
with a mop of gray hair, Eberhard was a serial entrepre-
neur who had launched a number of start-ups, including
a company called NuvoMedia, which he sold to Gemstar
in a $187 million deal. Eberhard was also looking for a
sports car that would be environmentally friendly—he
had concerns about global warming and U.S. depen-
dence on the Middle East for oil. When he didn’t !nd
the car of his dreams on the market he began contem-
plating building one himself, even though he had zero
experience in the auto industry. Eberhard noticed that
many of the driveways that had a Toyota Prius hybrid
electric vehicle (or “dork mobile” as he called it) also
had expensive sports cars in them—making Eberhard
speculate that there could be a market for a high per-
formance environmentally friendly car. As explained by
Eberhard, “It was clear that people weren’t buying a
Prius to save money on gas—gas was selling close to
in"ation-adjusted all-time lows. They were buying them
to make a statement about the environment.”i
Eberhard began to consider a range of alternative fuel
options for his car: hydrogen fuel cells, natural gas, die-
sel. However he soon concluded the highest ef!ciency
and performance would come from a pure electric ve-
hicle. Luckily for Eberhard, Al Cocconi (founder of AC
Propulsion and one of the original engineers for GM’s
ill-fated EV-1) had concluded the same thing, and had
produced a car called the tzero. The tzero could go .
Texas Legislative Council
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DALLAS
TARRANT
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DENTON
Texas Legislature
PLANH358
DISTRICT 115
HOUSE
.
Texas Government PaperWriting and Citing TipsSpring 2019 A.docxtodd191
Texas Government Paper
Writing and Citing Tips
Spring 2019 Assignment
Professor Cindy Casey Brown
Department Chair and Faculty
El Centro College
My Top 10
Writing Tips
Write about something you enjoy – if you are not enjoying what you are writing about the reader can tell!
Organize your thoughts before you write – make an OUTLINE of what you are going to write about. This helps you put your thoughts in logical order and tells you what research you need to complete. DO NOT do this last minute! Writing is a process and editing takes time.
**You will do an outline for me and it is worth 25 points!**
Never underestimate the power of simple words. Do NOT over-use your thesaurus. Many people will do this – be careful! Using “big” misplaced words can make your writing choppy and break up your reader’s concentration. Sometimes saying it simply is best! Which one holds your attention better?
“It was a great class. I learned a lot of valuable information.”
VERSUS
“The program was stupendous and provided immense opportunity for engaging my colleagues in banter on numerous topics of consequence. I was pedantic in my studies and this manufactured an astonishingly engaging atmosphere for scholarship.”
BUT do make your writing come alive – edit your work and see where you can do this - close your eyes and listen to this quote:
“Don't tell me the moon is shining; show me the glint of light on broken glass.”
― Anton Chekhov
Make sure you use words or transitional sentences to tell your reader where you are going and what you are telling them next – it helps your reader stay engaged – and helps your teachers grade your work.
Example: “There are three major challenges that the President is confronting this year. First…., Second… Finally….
Vary your sentence length. It keeps your readers engaged if every so often you have some nice, short sentences. It wakes your reader up and keeps them moving.
6. PROOFREAD. Write it, put it down for 24 hours, read it out loud to yourself. Double check your spell check (i.e. there and their – too, two, and to).
Read your paper out loud to yourself to make sure it flows.
8. Make sure your grammar and punctuation are PERFECT. Making silly mistakes makes your reader lose faith in your arguments. Presentation is important!
Read your paper and do a “Search and Find” for the words this, that, and these. Determine if you can take those words out – a lot of times they are extra words and you can remove them and clean up your writing and make it “crisper.”
10. CITE YOUR SOURCES!
When should you cite a source?
When you quote two or more words verbatim or even one word if it is unique to a source. (Example: “Let’s Roll!”)
When you introduce facts to your reader that are not common knowledge you need to cite to something.
When you paraphrase ideas, conclusions, discussions from a source – even though it .
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Tesla, Inc. (previously known as Tesla Motors, Inc.), is an American car maker and energy company established in Palo Alto, California. The association has some expertise in electric vehicle production and, through its SolarCity backup, solar panel board manufacturing. Tesla works in various assembly plants and production plants, such as Gigafactory 1 close to Reno, Nevada, and its core vehicle producing office at Tesla Factory in Fremont, California. As of March 2019, Tesla sells Model X, 3, and S cars. It is tolerating bookings for the Roadster (2020), Model Y, and Semi vehicles. Tesla additionally sells Powerpack, Megapack, and Powerwall batteries, Solar based panel boards, Solar based rooftop tiles [footnoteRef:1]. [1: Introduction (Reference 1)]
Tesla was established in July 2003, by engineers Marc Tarpenning and Martin Eberhard, under the name Tesla Motors. The organization's name is a honor to Nikola Tesla who was an engineer. In the initial stages of Series A funding, Tesla Motors was joined by Elon Musk, Ian Wright and Ian Wright, everyone who joined the company are permitted to call themselves as co-founders of the corporation. Elon Musk, who in the past worked as Chairperson and is the current CEO, said that he envisioned Tesla Motors as an independent automaker and technology organization, went for in the long run offering electric vehicles at costs reasonable to the normal customer. Tesla Motors changed its name to Tesla in February 2017 [footnoteRef:2]. [2: Tesla motors Inc.]
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The Scenario
You are working for the Federal Aviation Administration’s Safety Team (FAASTeam). Your particular workgroup is preparing a presentation for the annual Pan American Safety Summit (PASS) that reports the findings of FAASTeam research documenting typical injuries in minor small plane crashes. Your supervisor has assigned you the specific task of reviewing and editing the presentation’s data visualizations. Your teammates are less experienced with presenting technical information, and you have a reputation for being a skilled designer.
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Tiffany Marcus replies, “In my graphic, I want to show the distribution of the most common causes of small plane crashes.”
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You thank your colleagues and tell them that you will have their graphics reviewed, edited, and ready for the presentation by the end of the week.
AUGUST 8, 2013. It is 1:04 a.m. in Fremont, California, and Tesla Motors CEO, chairman, and product archi-
tect, Elon Musk, is wide-awake at his desk in the Tesla Motors manufacturing facility taking the last sip from a can
of low-carb Monster Energy drink. He has barely slept in two days and .
Tesla designs and manufactures electric vehicles (electric cars and trucks), battery energy storage from home to grid-scale, solar panels and solar roof tiles, and related products and services.
is one of the world's most valuable companies and remains the world's most valuable automaker with a market capitalization of more than US$760 billion.
A Marketing analysis for TESLA company in DBA program by Cairo University. It discussing how TESLA is competing Electric Vehicle Market and advancing the development of such Sector. In addition, Tesla is taking further steps toward future by inventing futuristic cars and innovative technology.
Case 14 Tesla Motors Melissa A. Schilling In 2013, TDinahShipman862
Case 14
Tesla Motors
Melissa A. Schilling
In 2013, Tesla Motors was a 4500-person company on track to set history. It had created two cars that most people agreed were remarkable. It had posted its rst quarterly pro t in 2013, and had repaid its government loans ahead of the major auto conglomerates. Most im- portantly, it looked like it might
survive
. Perhaps even thrive. This was astonishing as there had been no other successful auto manufacturing start up in the U.S. since the 1920s.
The road leading up to Tesla’s position in 2013 had not always been smooth, and there were many doubts that still lingered. Tesla had bene ted from the enthu- siasm of the “eco-wealthy”—a rather narrow portion of the market. How would Tesla fare when it was in direct competition with General Motors, Ford, and Nissan for the mass market? Would it be able to turn a sustainable pro t on its automaking operations? Furthermore, some questioned whether Tesla’s goals to sell to the mass market even made sense. In the niche market, it had a privileged position with customers that were relatively price-insensitive and were seeking a stylish, high per- formance car that made an environmental statement. To compete for the mass market, the car would have to pro- vide good value for the money (involving trade-offs that might con ict with Chairman Elon Musk’s ideals), and the obstacles to charging would have to be overcome.
History of tesla
In the year 2003, an engineer named Martin Eberhard was looking for his next big project. A tall, slim man with a mop of gray hair, Eberhard was a serial entrepre- neur who had launched a number of start-ups, including a company called NuvoMedia, which he sold to Gemstar
in a $187 million deal. Eberhard was also looking for a sports car that would be environmentally friendly—he had concerns about global warming and U.S. depen- dence on the Middle East for oil. When he didn’t nd the car of his dreams on the market he began contem- plating building one himself, even though he had zero experience in the auto industry. Eberhard noticed that many of the driveways that had a Toyota Prius hybrid electric vehicle (or “dork mobile” as he called it) also had expensive sports cars in them—making Eberhard speculate that there could be a market for a high per- formance environmentally friendly car. As explained by Eberhard, “It was clear that people weren’t buying a Prius to save money on gas—gas was selling close to in ation-adjusted all-time lows. They were buying them to make a statement about the environment.”i
Eberhard began to consider a range of alternative fuel options for his car: hydrogen fuel cells, natural gas, die- sel. However he soon concluded the highest ef ciency and performance would come from a pure electric ve- hicle. Luckily for Eberhard, Al Cocconi (founder of AC Propulsion and one of the original engineers for GM’s ill-fated EV-1) had concluded the same thing, and had produced a car called the tzero. The tz ...
In 2013, Tesla Motors was a 4500-person company on track to .docxwilcockiris
In 2013, Tesla Motors was a 4500-person company on
track to set history. It had created two cars that most
people agreed were remarkable. It had posted its !rst
quarterly pro!t in 2013, and had repaid its government
loans ahead of the major auto conglomerates. Most im-
portantly, it looked like it might survive. Perhaps even
thrive. This was astonishing as there had been no other
successful auto manufacturing start up in the U.S. since
the 1920s.
The road leading up to Tesla’s position in 2013 had
not always been smooth, and there were many doubts
that still lingered. Tesla had bene!ted from the enthu-
siasm of the “eco-wealthy”—a rather narrow portion of
the market. How would Tesla fare when it was in direct
competition with General Motors, Ford, and Nissan for
the mass market? Would it be able to turn a sustainable
pro!t on its automaking operations? Furthermore, some
questioned whether Tesla’s goals to sell to the mass
market even made sense. In the niche market, it had a
privileged position with customers that were relatively
price-insensitive and were seeking a stylish, high per-
formance car that made an environmental statement. To
compete for the mass market, the car would have to pro-
vide good value for the money (involving trade-offs that
might con"ict with Chairman Elon Musk’s ideals), and
the obstacles to charging would have to be overcome.
HISTORY OF TESLA
In the year 2003, an engineer named Martin Eberhard
was looking for his next big project. A tall, slim man
with a mop of gray hair, Eberhard was a serial entrepre-
neur who had launched a number of start-ups, including
a company called NuvoMedia, which he sold to Gemstar
in a $187 million deal. Eberhard was also looking for a
sports car that would be environmentally friendly—he
had concerns about global warming and U.S. depen-
dence on the Middle East for oil. When he didn’t !nd
the car of his dreams on the market he began contem-
plating building one himself, even though he had zero
experience in the auto industry. Eberhard noticed that
many of the driveways that had a Toyota Prius hybrid
electric vehicle (or “dork mobile” as he called it) also
had expensive sports cars in them—making Eberhard
speculate that there could be a market for a high per-
formance environmentally friendly car. As explained by
Eberhard, “It was clear that people weren’t buying a
Prius to save money on gas—gas was selling close to
in"ation-adjusted all-time lows. They were buying them
to make a statement about the environment.”i
Eberhard began to consider a range of alternative fuel
options for his car: hydrogen fuel cells, natural gas, die-
sel. However he soon concluded the highest ef!ciency
and performance would come from a pure electric ve-
hicle. Luckily for Eberhard, Al Cocconi (founder of AC
Propulsion and one of the original engineers for GM’s
ill-fated EV-1) had concluded the same thing, and had
produced a car called the tzero. The tzero could go .
Texas Legislative Council
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Coppell
Grapevine
Euless
Flower
Mound
Irving
Lewisville
Carrollton
Dallas
DALLAS
TARRANT
COLLIN
DENTON
Texas Legislature
PLANH358
DISTRICT 115
HOUSE
.
Texas Government PaperWriting and Citing TipsSpring 2019 A.docxtodd191
Texas Government Paper
Writing and Citing Tips
Spring 2019 Assignment
Professor Cindy Casey Brown
Department Chair and Faculty
El Centro College
My Top 10
Writing Tips
Write about something you enjoy – if you are not enjoying what you are writing about the reader can tell!
Organize your thoughts before you write – make an OUTLINE of what you are going to write about. This helps you put your thoughts in logical order and tells you what research you need to complete. DO NOT do this last minute! Writing is a process and editing takes time.
**You will do an outline for me and it is worth 25 points!**
Never underestimate the power of simple words. Do NOT over-use your thesaurus. Many people will do this – be careful! Using “big” misplaced words can make your writing choppy and break up your reader’s concentration. Sometimes saying it simply is best! Which one holds your attention better?
“It was a great class. I learned a lot of valuable information.”
VERSUS
“The program was stupendous and provided immense opportunity for engaging my colleagues in banter on numerous topics of consequence. I was pedantic in my studies and this manufactured an astonishingly engaging atmosphere for scholarship.”
BUT do make your writing come alive – edit your work and see where you can do this - close your eyes and listen to this quote:
“Don't tell me the moon is shining; show me the glint of light on broken glass.”
― Anton Chekhov
Make sure you use words or transitional sentences to tell your reader where you are going and what you are telling them next – it helps your reader stay engaged – and helps your teachers grade your work.
Example: “There are three major challenges that the President is confronting this year. First…., Second… Finally….
Vary your sentence length. It keeps your readers engaged if every so often you have some nice, short sentences. It wakes your reader up and keeps them moving.
6. PROOFREAD. Write it, put it down for 24 hours, read it out loud to yourself. Double check your spell check (i.e. there and their – too, two, and to).
Read your paper out loud to yourself to make sure it flows.
8. Make sure your grammar and punctuation are PERFECT. Making silly mistakes makes your reader lose faith in your arguments. Presentation is important!
Read your paper and do a “Search and Find” for the words this, that, and these. Determine if you can take those words out – a lot of times they are extra words and you can remove them and clean up your writing and make it “crisper.”
10. CITE YOUR SOURCES!
When should you cite a source?
When you quote two or more words verbatim or even one word if it is unique to a source. (Example: “Let’s Roll!”)
When you introduce facts to your reader that are not common knowledge you need to cite to something.
When you paraphrase ideas, conclusions, discussions from a source – even though it .
TEXAS GOVERNOR I. Introduction The Governor is just .docxtodd191
TEXAS GOVERNOR
I. Introduction:
The Governor is just like a mini president in each state. A governor is
generally seen as setting the agenda for the legislative branch, and is basically the lead
political actor; the figure most likely to appear on television on a regular basis. A
governor term of office is four years with exceptions of New Hampshire and Vermont.
The governor may serve any number of terms, but he or she cannot serve more than
two terms in a row.
II. Body:
A. Requirement and Salary:
1. Age
a. At least 30 years of age.
b. Must be a US resident for the last 5 years.
2. Salary
a. $150,000
b. Governor’s Mansion
B. Powers of Governor of Texas
1. Legislative Powers
a. VETO
b. Appoints State Officials
2. Judicial Powers
a. Grant Clemency
b. Appoints member for The Board of Pardons & Parole
3. Military Power
a. Commander-in-chief of Military
C. History of Texas Governors
1. First Governor of Texas: James Pinckney Henderson
a. Government service in the Republic
b. Governor of Texas & War with Mexico
2. Current Governor of Texas: Greg Abbott
a. Greg Abbott ‘s achievements
b. His Initiatives: Four pillars (1) safety and security, (2) education, (3)
economic advancement and (4) the preservation of liberty
III. Conclusion:
A. Analytical Facts
1. List of governors of Texas
B. Concluding Statement
References:
Brown, J. (1935). Life and times of Henry Smith : The first American Governor of Texas.
Austin, Tex.: Steck Company.
Morris, C. (1992). Storming the Statehouse : Running for governor with Ann Richards and
Dianne Feinstein. New York : Toronto : New York: Scribner's Sons ; Maxwell Macmillan
Canada ; M. Macmillan International.
Parton, J. (1888). The Annexation of Texas as Essential to the United States, vol. III, pp.
658–660.
Ann Richards.(Ann Richards, governor of Texas)(Obituary). (2006). The Economist (US),
380(8497), 96US.
Submitted by: SHUBHANKAR SHAH, 2018FA GOVT-2306-51408
.
Texas Government 2306 – Spring 2019TEST III – Chapters 6, 8, Dea.docxtodd191
Texas Government 2306 – Spring 2019
TEST III – Chapters 6, 8, Death Penalty and the Insanity Defense
DIRECTIONS FOR ESSAYS: Please turn your Essays in on BlackBoard by 5:00 p.m. on Monday, May 13, 2019.
DIRECTIONS FOR MULTIPLE CHOICE:Please turn your Scantrons in to me by 10:00 a.m. on Monday, May 13, 2019. You may bring them to my office (A520) and I will be in my office from 8:00 – 10:00 a.m. on Monday, May 13, 2019. You may also put your Scantron in my faculty mailbox in the Academic Transfer Office (A442) before that time. PLEASE put your full name, Class, ID Number, and Section on your Scantron (if you do not you may not get credit).
I. ESSAYS (70 points)
Chapter 6 – The Texas Executive
1. Pick one position in the Texas Executive Branch and write me a one paragraph overview of that position. Then research the person in the position now and write me a paragraph about that person.
2. Does Texas have a weak governor or a strong governor? Fully explain your answer.
Chapter 8 – The Judicial System in Texas, the Death Penalty and the Insanity Defense
3. Should prisons exist for rehabilitation OR for punishment? Fully explain your answer.
4. You are a Untied States Supreme Court Justice. A case comes before the Court from Texas arguing the death penalty is unconstitutional under the Eighth Amendment of the United States Constitution. What is your opinion and why?
5. During our study of The Texas Seven and Randy Halprin you learned a defendant can be given the death penalty under the Law of Parties in Texas. Do you agree or disagree with the Law of Parties being applied in death penalty cases? Do you think Randy Halprin have been charged with capital murder? Fully explain your answer.
6. We did a case study over Andrea Yates to study the Insanity Defense. You are on the jury in Andrea Yates’ capital murder trial. Do you vote guilty, not guilty, or not guilty by reason of insanity? Fully explain your answer.
7. As part of your study of the death penalty you watched a 60 minute documentary. What did you learn from the documentary? Did anything you saw change your personal opinions about the death penalty and its application? Why or why not and fully explain your answer.
II. EXTRA CREDIT (5 points each) (You must use complete sentences for credit!)
Bonus 1 What part of this class did you enjoy the most / what should stay the same – AND - what part did you not enjoy / think I should change / what can I do differently to improve the student experience? (Thank you for your opinions – I take your opinions seriously and apply them to future classes!).
Bonus 2 What did you learn in this class that you will remember one year from today?
II. MULTIPLE CHOICE (30 points total)
Chapter 6 – The Texas Executive
1. Which of the following individuals are a part of the Texas Plural Executive?
A. The Texas Governor.
B. The Texas Lieutenant Governor.
C. The Texas Attorney General.
D. The Texas Secretary of State.
E. All of .
Testing 2
Testing
Christy Mock
PSY-FP7610
Assignment 3
Capella University
May 2017
Testing
Test
The Kaufman Assessment Battery for Children (KABC), Second Edition offers testing that can be completed in twenty-five to seventy-minute test settings. This test is designed to be administer in a school setting by a testing administer that has completed specific training and read the testing manual thoroughly with complete understanding. The scoring is completed through specialized software. This test consists of eighteen subtests that an administrator can administer in sections to avoid testing fatigue for the student. Per the website Pearson Clinical, the test is administered in eighteen subsets that are broken down into five categories. The five categories focus on specific aspects that will be assessed and offer different categories for different age ranges. Category 1 focuses on Simultaneous Triangles, this includes seven subsets that are: Face Recognition, Pattern Reasoning, Block Counting which are designed to be tested on students from five to eight years old (Pearson Clinical Psychology, 2017). This subset also includes Story Completion, Conceptual Thinking, Rover, and Gestalt Closure that can be used to test any ages between five and eighteen. Category two is Sequential Word Order, this set includes Number Recall, and Hand Movements that can also be used for any age category (Pearson Clinical Psychology, 2017). The third category Planning which measures the pattern reasoning and story completion in students from 7-18 (Pearson Clinical Psychology, 2017). This category includes testing the Learning Atlantis, Atlantis Delayed, Rebus, and Rebus. The last category is Delayed Knowledge which is included in the CHC model only Riddles, Expressive Vocabulary, and Verbal Knowledge (Pearson Clinical Psychology, 2017).This form of testing offers reliability and validity to the results.
Reliability and Validity
The validity evidence from associations that are compared to different mediums produced outcomes that offered the same as the results that would have been expected. Per the article published by Kaufman, the subscale and index-score relationships are commonly offered in association with the K-ABC, also per the index and IQ scores of the WISC-III, WISC-IV, and WPPSI-III, with the KAIT, and with the Cognitive clusters of the Woodcock-Johnson III. Correlations of KABC-II scales with the like-named clusters of the WJ III Cog battery reveal weak discriminant validity (Kaufman, A. S., & Kaufman, N. L, 2004). Large amounts of clinical studies disclose variances that exist in different section of students with disabilities and the norm group. In the group that included Autistic Disorder, ADHD, and emotional disturbance the greatest pattern of differences could be found. The authors of the study often warn about considering the smaller differences too much as it could take focus off the larger benefits of using the test.
Strengths.
TestingdiagnosisTests that are used to diagnose autism are done.docxtodd191
Testing/diagnosis
Tests that are used to diagnose autism are done in various fields such as psychology, psychiatry, pediatrics, and neurology. Diagnosis is established after observing the child’s behavior and testing the child’s abilities in these fields. Any child should be examined for developmental abilities from birth to the age of three. If a child is detected with some developmental delays or disabilities, the pediatrician should refer the child to a specialist in early Intervention.
Some of the behaviors that need to be noticed are:
· Absence of babbling and making gestures by the age of 12 months
· Absence of any word utterances by the age of 16 months
· Absence of two-word unprompted phrases by the age of 24 months
· Loss of social and language skills at any age
In order to determine whether a child has a disorder in the autism spectrum a psychiatrist will likely look at a variety of factors. These might include such things as:
· Evaluation of the medical history of the child’s mother during her pregnancy
· Assessment of the developmental milestones
· Complete physical examination
· Habits of eating and sleeping
· Functioning of the stomach and bowels
· Coordination disabilities
· Sensory impairments
· Allergies
· Any medical diseases
· History of developmental disorders in the family
· History of genetic and metabolic disorders in the family
· Exposure of the child or parents to toxins
Some tests may be done to confirm that the symptoms of the child are not due to other conditions which may seem like autism spectrum disorder, such as genetic or metabolic diseases, mental retardation, and deafness. These tests are:
Chromosomal Analysis This is performed to test for mental retardation. If there is mental retardation in the child's family, this test may be conducted. For instance, fragile X syndrome that leads to symptoms of low levels of intelligent may be diagnosed with chromosomal analysis.
Electroencephalograph (EEG) If there are symptoms of seizures and developmental regression, then an EEG is conducted.
Magnetic Resonance Imaging (MRI) An MRI is done to detect any structural differences in the brain.
Running head: MEDIA IMAGES AND EATING DISORDERS1
MEDIA IMAGES AND EATING DISORDERS6
Title: Media Images and Eating Disorders
Name:
Course:
Lecturer:
Date: March 8, 2020
Introduction
In today's world, many people have an access to the media comprised of the Internet which includes social media platforms, the print media which is comprised of newspapers and magazines, and broadcast media which includes televisions and radios. The exposure to the aforementioned types of media has been associated with the increasing cases of eating disorders as reported by some researchers (Latzer, Spivak-Lavi, & Katz, 2015, p. 375). Studies have shown that children and young adolescents spent about 5 hours a day watching the television and about 7 hours using the various types of media combined (Morris & Katzman, 2003, p. 287).
Testicular Cancer Case Studies A 21-year-old m.docxtodd191
Testicular Cancer
Case Studies
A 21-year-old male noted pain in his right testicle while studying hard for his midterm college
examinations. On self-examination, he noted a “grape sized” mass in the right testicle. This
finding was corroborated by his healthcare provider. This young man had a history of delayed
descent of his right testicle until the age of 1 year old.
Studies Results
Routine laboratory studies Within normal limits (WNL)
Ultrasound the testicle Solid mass, right testicle associated with calcifications
HCG (human chorionic gonadotropin) 550mIU/mL (normal: <5)
CT scan of the abdomen Enlarged retroperitoneal lymph nodes
CT scan of the chest Multiple pulmonary nodules
Diagnostic Analysis
At semester break, this young man underwent right orchiectomy. Pathology was compatible with
embryonal cell carcinoma. CT directed biopsy of the most prominent pulmonary nodule
indicated embryonal cell carcinoma, compatible with metastatic testicular carcinoma. During a
leave of absence from college, and after banking his sperm, this young man underwent
aggressive chemotherapy. Repeat testing 12 weeks after chemotherapy showed complete
resolution of the pulmonary nodules and enlarged retroperitoneal lymph nodes.
Critical Thinking Questions
1. What impact did an undescended testicle have on this young man’s risk for developing
testicular cancer?
2. What might be the side effects of cytotoxic chemotherapy?
3. What was the purpose of preserving his sperm before chemotherapy?
4. Is this young man’s age typical for the development of testicular carcinoma?
Knee Injury
Case Studies
A 15-year-old gymnast has noted knee pain that has become progressively worse during the
past several months of intensive training for a statewide meet. Her physical examination
indicated swelling in and around the left knee. She had some decreased range of motion and
a clicking sound on flexion of the knee. The knee was otherwise stable.
Studies Results
Routine laboratory values Within normal limits (WNL)
Long bone (femur, fibula, and tibia) X-ray No fracture
Arthrocentesis with synovial fluid analysis
Appearance Bloody (normal: clear and straw-colored)
Mucin clot Good (normal: good)
Fibrin clot Small (normal: none)
White blood cells (WBCs) <200 WBC/mm3 (normal: <200 WBC/mm3)
Neutrophils <25% (WNL)
Glucose 100 mg/dL (normal: within 10 mg/dL of serum
glucose level)
Magnetic resonance imaging (MRI) of the knee Blood in the joint space. Tear in the posterior
aspect of the medial meniscus. No cruciate
or other ligament tears
Arthroscopy Tear in posterior aspect of medial meniscus
Diagnostic Analysis
The radiographic studies of the long bones eliminated any possibility of fracture.
Arthrocentesis indicated a bloody effusion, which was probably a result of trauma. The fibrin
clot was further evidence of bleeding within the joint. Arthrography indicated a tear of the
med.
Test 1. Jung Typology TestENFJ Learning StyleHow ENFJs acquire, .docxtodd191
Test 1. Jung Typology Test
ENFJ Learning Style
How ENFJs acquire, memorize and recollect information
An ENFJ’s interest in a subject is driven by the answer to the question, “Is this helpful to people?” The more they see a topic to be beneficial to others, the greater their interest in the topic and the greater their desire to actively engage in it and apply what they learn. Their interest in studying the material is motivated by their desire to find solutions to people-related issues.
ENFJs easily and quickly pick up new material, especially when it is delivered on a conceptual basis. Concrete information is also well received by individuals of this type. ENFJs are capable of grasping material lacking strong logical connection. For example, learning the rules of the road is no more difficult for them than grasping some theory. As a rule, they develop a great depth and breadth of understanding of new material. Learned material is better retained when a significant portion of it is devoted to highlighting the topic’s connection and relevance to people.
ENFJs are capable of independently learning expansive and complex material. They are good at both retention of information on a logical basis and mechanical memorization, although the latter is less effective. ENFJs are able to precisely recall learned information, whether or not it is all conceptually related. ENFJs can benefit from studying both independently and in a group setting.
ENFJs are able to actively apply acquired knowledge and skills to their work. They can apply it to concrete tasks or creatively develop it in a given direction. Working with material they have learned, understood, and internalized brings them great enjoyment.
ENFJs are able to remain very stable when experiencing a high level of learning related stress. They prefer to evenly distribute their efforts in learning new material, although they are capable of learning through short periods of overexertion.
An ENFJ finds it easy to establish a common ground with people of a mindset similar to theirs - or, in other words, the representatives of intuitive/feeling types (NF), including ENFJ, INFJ, ENFP, and INFP personality types. ENFJs are usually open to active communication with people of this type. They have a similar way of perceiving the world, which is why an ENFJ finds it easy to share their feelings and views with other NFs, and is also likely to relate to other NFs’ feelings and views.
In their interaction with the representatives of intuitive/thinking types (NT), including ENTJ, INTJ, ENTP, and INTP personality types, INFJs should rely on conceptual and logical communication. ENFJs’ communication with people from this group often involves a variety of topics and is seen as beneficial by both parties. And while many ENFJs form their opinion based on their feelings, whereas the NT people try to maintain an objective view of events for the most part, they often find common ground for compelling discussion and sear.
Testing Methodology Policy and Procedure (individual submission).docxtodd191
Testing Methodology Policy and Procedure (individual submission)
Research and document preferred testing methodologies for:
EMR, Mobile Apps, Patient Care devices, External websites, SDLC (hint: vulnerability scanning, penetration testing, medical device scanning, static code analysis, dynamic code analysis, etc.).
Research and document preferred remediation cycles for the in scope systems (hint: HIPAA, PCI, FERPA)
Research and document preferred reporting cycles / methods for the in scope systems (hint: vulnerability metrics, such as CVSS, NVD). Note: Still follow APA for this assignment, which may not be appropriate in an organization.
.
Testing should include—at a minimum—unit, integration, and system .docxtodd191
Testing should include—at a minimum—unit, integration, and system testing. Regression testing is highly encouraged. Include your results from additional types of testing, including network-readiness testing, volume testing, recovery testing, penetration testing, hardware-certification testing, migration testing, and ready-for-use testing.
Each test case should include (at a minimum) the following information:
Objective of test case
Setup procedure
Expected results
Procedure for executing test case
Results
.
Testing Access ControlDiscuss the purpose of the security de.docxtodd191
"Testing Access Control"
Discuss the purpose of the security development life cycle and how it is used for testing security systems. Using the Internet, find two to three tools that could be used to conduct a vulnerability assessment. Please include the web URL and share with your classmates. Are paid tools more effective than open-source tools? How does someone determine the best tool to use for an assessment? Justify your answers.
Additional post options:
Should a company conduct their own pentest or should they pay to have an outside company conduct the tests? Justify your answer.
.
Test Your Innovation IQ Holly Green, Contributor Origina.docxtodd191
Test Your Innovation IQ
Holly Green, Contributor
Original Source
Everyone knows that innovation means coming up with the next great idea in your
industry, right? Actually, there’s a lot more to it than that. Test your ability to separate
innovation fact from fiction by answering the following questions true or false:
1. Innovation is the act of coming up with new and creative ideas.
2. Innovation is a random process.
3. Innovation is the exclusive realm of a few naturally talented people.
4. The biggest obstacle to innovation is a lack of organizational resources and
know-how.
5. The most important type of innovation involves bringing new products and
services to market.
6. Teaching employees to think creatively will guarantee innovation.
7. The most powerful way to trigger your brain is to simply ask it a question.
8. Most companies pursue incremental rather than disruptive innovation.
9. Most companies are not structured to innovate.
10. Listening to your customers is a great way to innovate.
Answers:
1. False. In business, innovation is the act of applying knowledge, new or old, to the
creation of new processes, products, and services that have value for at least one of
your stakeholder groups. The key word here is applying. Generating creative ideas is
certainly part of the process. But in order to produce true innovation, you have to
actually do something different that has value.
2. False. Innovation is a discipline that can (and should) be planned, measured, and
managed. If left to chance, it won’t happen.
3. False. Everyone has the power to innovate by letting their brain wander, explore,
connect, and see the world differently. The problem is that we’re all running so fast that
we fail to make time for the activities that allow our brains to see patterns and make
connections. Such as pausing and wondering….what if?
4. False. In most organizations, the biggest obstacle to innovation is what people
already know to be true about their customers, markets, and business. Whenever you’re
absolutely, positively sure you’re right, any chance at meaningful innovation goes out
the window.
https://www.forbes.com/sites/work-in-progress/2011/12/06/test-your-innovation-iq/#3133e7f0395b
5. False. It’s certainly important to bring new products and services to market. But the
most important form of innovation, and the #1 challenge for today’s business leaders
may really be reinventing the way we manage ourselves and our companies.
6. False. New ideas are a dime a dozen. The hard part is turning those ideas into new
products and services that customers value and are willing to pay for -- a process that
requires knowledge about what your customers want and need, coupled with
implementation.
7. True. Ask a question and the brain responds instinctually to get closure. The key with
innovation is to ask questions that open people to possibilities, new ways of looking at
the same data, and new interpre.
testicular torsionPopulation most affected (ex Older Adul.docxtodd191
testicular torsion
Population
most
affected (ex: Older Adults, Middle Adults, Young Adults, Teenagers, Child, Infants)
Age related milestone for your chosen population
Socio-Demographic/Risk factors for getting the disease/condition
Impact on QOL
Current/new/recent research/EBP that will benefit/support this patient with the specific disease (If there are none please state so)
Recommendation for treatment or Gold standards for treatment if any (can be tied into the current research as above) (If there are no gold standards then please state so, but there should be some recommendations)
Please tell what/how
you
(speak in the first person) as the FNP caring for this patient with this specific disease can make a difference in his/her care and incorporate patient care/self-help teaching that can help him/her minimize disease symptoms.
Red flags for this condition (what specific S/S require urgent/ER care) or when should you refer patient to specialist.
references
.
Test the application in the Android Phone Emulator.Cre.docxtodd191
Test the application in the Android Phone Emulator.
Create screenshots of all of the relevant screens of your running application, and save them in a Word document named "yourname_ITSD427_IP4.docx." You should also use this document to describe the work you performed for this assignment, with specific details regarding the locations and changes of the code that you created and modified.
.
Tesla Motors strategy was no secret in 2006 the chairman and CEO.docxtodd191
Tesla Motors' strategy was no secret: in 2006 the chairman and CEO, Elon Musk, announced:
So, in short, the master plan is:
Build a sports car.
Use that money to build an affordable car.
Use that money to build an even more affordable car.
While doing above, also provide zero emission electric power generation options.
Don't tell anyone.1
The remarkable thing was that by 2015, Tesla had kept to that strategy and executed it almost flawlessly. Phase 1 (“Build a sports car”) was realized with the launch of its Roadster in 2007. Phase 2 (“Use that money to build an affordable car”) began in 2013 with the launch of the Model S.
The acclaim that greeted both cars had propelled Tesla's reputation and its share price. Since its initial public offering in June 2010, Tesla's share price had followed an upward trajectory. On June 12, 2015, Tesla's stock market value was $31.7 billion. By comparison, Fiat Chrysler was valued at $20.5 billion despite that fact that Fiat Chrysler would sell about 2.5 million cars in 2015 against Tesla's 55,000. The optimism that supported Tesla's valuation reflected the company's remarkable achievements during its short history and investors' faith in the ability of Elon Musk to realize his vision “to accelerate the advent of sustainable transport by bringing compelling mass market electric cars to market as soon as possible.”2
Indeed, Musk's vision for Tesla extended beyond revolutionizing the automobile industry: Tesla's battery technology would also provide an energy storage system that would change “the fundamental energy infrastructure of the world.”
A central issue in the debate over the appropriate market valuation of Tesla was whether Tesla should be valued as an automobile company or as a technology company. In practice, these two issues could not be separated: Tesla's principal source of revenue would be its cars, but realizing the expectations of earnings growth that were implicit in Tesla's share price required Tesla to maintain technological leadership in electric vehicles. Given that Tesla's rivals were some of the world's largest industrial companies—Toyota, General Motors, Ford, Volkswagen, and Renault–Nissan, to name a few—this was a daunting prospect.
Electric Cars
The 21st century saw the Second Coming of electric cars. Electric cars and buses were popular during the 1890s and 1900s, but by the 1920s they had been largely displaced by the internal combustion engine.
Most of the world's leading automobile companies had been undertaking research into electric cars since the 1960s, including developing electric “concept cars.” In the early 1990s, several automakers introduced electric vehicles to California in response to pressure from the California Air Resources Board. However, the first commercially successful electric cars were hybrid electric vehicles (HEVs). Sales of HEVs in the US grew from 9,350 in 2000 to 352,862 in 2007. By far the most successful HEV, both in the US and globally, was the .
Tesla SolarCity CaseFIN 440
Executive Summary
Tesla’s CEO, Elon Musk, has declared the intention to acquire SolarCity. SolarCity is a solar company that was founded by Peter and Lyndon Rive in 2006. During times where, fossil fuel prices are spiraling and the desire for clean energy is increasing, the company became the number-one solar panel installer in the United States. Its long-term financing agreements with customers also provides recurring revenue for this company. SolarCity had a five-year compounded annual growth rate of 62.25 percent. Despite these facts, the company has never had a profitable year. It is important to note that the firm has become dependent on large amounts of debt to finance its large capital expenditures.
On the other hand, analysts believe that SolarCity will finally become profitable in 2017. With the acquisition of SolarCity, both Tesla and SolarCity would increase their profits significantly and experience significant cost synergies. At present, Tesla specializes in designing, manufacturing, and selling electric cars. The acquisition of SolarCity could provide Tesla with a realistic opportunity to expand its market share, increase operational efficiency, and access cheaper financing.
Tesla’s CEO, Elon Musk believes that he can increase SolarCity’s operating margin to make it valuable, even though he is unsure about the fair purchase price. However, Tesla’s investors may not agree with the acquisition of SolarCity. SolarCity is unstable and unprofitable. Tesla is also experiencing cash and profitability issues and may not be able to sustain another risky company. The first step in determining if this acquisition would be beneficial is to conduct a valuation on SolarCity and determine what a fair purchase price would be.
Analysis
The markets for solar power and automotive industries are characterized by high level of competition, as the large-scale companies must sustain their market size. This explain the reason why SolarCity has required lots of financial supports to gain and maintain competitiveness. Tesla’s CEO, Elon Musk, has noticed the long-term growth opportunities for SolarCity, especially, because of the expected growth in demand for the Tesla model 3 and the proposed partnership with SolarCity to launch Gigafactory. Acquiring with SolarCity can play a significant role in helping to reduce Tesla’s operating costs and increase the revenue.
On the other hand, this acquisition would also influence economies of scale. It will provide a suitable stage for SolarCity products and enable Tesla to upsurge its production capacity. This merger and acquisition aims to eliminate the overhead expenses and improve efficiency, service delivery, and customers’ satisfaction. It will allow Tesla to downsize and focus on the key business activities. This deal could enable SolarCity to reduce the level of debt comparing to the other competitors in the industry.
SolarCity’s recent poor financial performance .
Test one, sp12TrueFalseIndicate whether the statement is t.docxtodd191
Test one, sp12
True/False
Indicate whether the statement is true or false.
____ 1. Humans are essentially social beings.
____ 2. America is so powerful that it doesn’t need the support of other nations.
____ 3. Unlike other aspects of society, like the economy, the media have not become truly global in nature.
____ 4. The most widely accepted definitions of sociology as a discipline are those that are narrow and focused.
____ 5. When we ask psychologists to help us understand the behavior of Eric Harris and Dylan Klebold, who murdered 13 people and injured 24 more at Columbine High School in 1999, we are using our sociological imaginations.
____ 6. If a sociologist attempts to study whether men are really less emotional than women, she is taking the role of the social analyst, rather than the everyday actor.
____ 7. The poem “The Blind Men and the Elephant” suggests that there is only one correct approach to understanding social life.
____ 8. Conflict theory uses a dynamic model of historical change that presents change as constant, ongoing, and inevitable.
____ 9. W. E. B. Du Bois became so disillusioned with the United States that he voluntarily exiled himself to Ghana near the end of his life.
____ 10. Thomas Kuhn, a philosopher of science, argues that truth is relative, in that it is dependent on the paradigm through which one understands the world.
____ 11. You are about to do a series of interviews about drug abuse and academic performance. In order to make people feel more comfortable, you tell them that these interviews are about student satisfaction with the university and have them sign a form showing that they’ve willingly agreed to participate. You have the informed consent of your research subjects.
____ 12. The order in which a questionnaire asks about different issues cannot affect the way people respond.
____ 13. Codes of ethics in the social sciences provide very strict guidelines for researchers to follow.
____ 14. Market research is probably the most common use of sociological methods for nonacademic purposes.
____ 15. Marxists are among the strongest supporters of value-free sociology.
Multiple Choice
Identify the choice that best completes the statement or answers the question.
____ 16. Sociologists observe society:
a. by studying the various parts of a society and the ways they interact and influence each other
b. by studying the shape and boundaries of society as a whole
c. by studying society as if it were a concrete object, in the same way that a geologist studies rocks
d. by utilizing the preconceptions, assumptions, and beliefs that come from living in a society
e. through the use of special scientific tools that allow unmediated access to the very heart of society
____ 17. Even though a small number of people have been academically trained as sociologists, we all can be described as “natural sociologists” because:
a. we are born with certain skills .
TERRORIST RISING 3
Terrorist Rising
Columbia Southern University
Running head: TERRORIST RISING 1
Specific Goal: I will show how I will be a resource to help save thousands of people in an attack.
Introduction
I. Summarize the attack and establish resources and support
a. Transport victims to medical facilities
b. Avoid having an EMS that is not prepared for a mass attack (Sollid, et al., 2011)
c. Determine the needs of the injured and send them to correct facility
II. Establish a framework for recovery.
a. Determine what facility the initial casualties will be sent to.
b. Where will the casualties be buried (Commonweal, 2001)
Thesis
When terrorist attack a populated area; emergency responders can be used successfully.
Body
I. What assets will be needed to penetrate ground zero?
a. Establishing an incident command center to inventory all resources
b. Create a plan to enter the structure without harming anyone
II. Part of the structure is ablaze as well as neighboring areas
a. Method of getting emergency vehicles in to put out the fires
b. Protecting the team and equipment that will be sent in
III. After parts of the area are becoming secure SWAT and EMS will be sent in.
a. Timeline of the deployment of the teams is critical to save lives
III. How does the media alerts terrorists?
a. Using the media to assist us instead of allowing them to be a hindrance
b. Not allowing the media to magnify the terrorist propaganda (Biernatzki, 2002)
IV. Once the entire location has become secure rescue and recovery efforts become vital.
a. Tending to the wounded and setting up temporary treatment locations
b. Local physicians and nurses can be called out as volunteers (Silverman, 2001)
V. Evacuate all remaining visitors, employees, players, etc.
a. Setting up evacuation routes and methods of transportation
b. Being sure not to tamper any evidence on the crime scene in the process
VI. Determining the temporary placement of remaining causalities.
a. Utilizing all nearby hospitals, clinics, and urgent care facilities
b. Alerting all Oakland metropolitan morticians, examiners, forensics, etc. to assist
VII. Since an attack of this level can occur; react to this incident to be proactive for the next.
a. Create a large scale Emergency Action Plan
b. Preventative measures to alert the authorities of possible attacks
c. Planning the long road of recovery from the attack (Lenain, 2002)
Conclusion
I. I intend to establish the methods for a successful halt the attack, rescue survivors, recovery the causalities, and restore the city.
a. Determining the method to breach the structure
b. Taking control of the area, removing people, and tending to all that need help
c. Planning the road to recovery
References
Biernatzki, W. E. (2002). II. Mass media: collaborators with terrorists? Communication Research Trends, 21(1), 5+. Retrieved from http://go.galegroup.com/ps/i.do?id=GALE%7CA130933224&v=2.1&u=oran95108&it=r&p=AONE&sw=w&asid=30edb27ab50e78.
Test one, sp12TrueFalseIndicate whether the statement is true o.docxtodd191
Test one, sp12
True/False
Indicate whether the statement is true or false.
____ 1. Humans are essentially social beings.
____ 2. America is so powerful that it doesn’t need the support of other nations.
____ 3. Unlike other aspects of society, like the economy, the media have not become truly global in nature.
____ 4. The most widely accepted definitions of sociology as a discipline are those that are narrow and focused.
____ 5. When we ask psychologists to help us understand the behavior of Eric Harris and Dylan Klebold, who murdered 13 people and injured 24 more at Columbine High School in 1999, we are using our sociological imaginations.
____ 6. If a sociologist attempts to study whether men are really less emotional than women, she is taking the role of the social analyst, rather than the everyday actor.
____ 7. The poem “The Blind Men and the Elephant” suggests that there is only one correct approach to understanding social life.
____ 8. Conflict theory uses a dynamic model of historical change that presents change as constant, ongoing, and inevitable.
____ 9. W. E. B. Du Bois became so disillusioned with the United States that he voluntarily exiled himself to Ghana near the end of his life.
____ 10. Thomas Kuhn, a philosopher of science, argues that truth is relative, in that it is dependent on the paradigm through which one understands the world.
____ 11. You are about to do a series of interviews about drug abuse and academic performance. In order to make people feel more comfortable, you tell them that these interviews are about student satisfaction with the university and have them sign a form showing that they’ve willingly agreed to participate. You have the informed consent of your research subjects.
____ 12. The order in which a questionnaire asks about different issues cannot affect the way people respond.
____ 13. Codes of ethics in the social sciences provide very strict guidelines for researchers to follow.
____ 14. Market research is probably the most common use of sociological methods for nonacademic purposes.
____ 15. Marxists are among the strongest supporters of value-free sociology.
Multiple Choice
Identify the choice that best completes the statement or answers the question.
____ 16. Sociologists observe society:
a. by studying the various parts of a society and the ways they interact and influence each other
b. by studying the shape and boundaries of society as a whole
c. by studying society as if it were a concrete object, in the same way that a geologist studies rocks
d. by utilizing the preconceptions, assumptions, and beliefs that come from living in a society
e. through the use of special scientific tools that allow unmediated access to the very heart of society
____ 17. Even though a small number of people have been academically trained as sociologists, we all can be described as “natural sociologists” because:
a. we are born with certain skills that naturally allow us to think sociologically
b. society is a par.
Terrorism In the workplaceSubmit a document in the fo.docxtodd191
Terrorism: In the workplace
Submit a document in the format identified in the Syllabus answering the following prompt. Your response should be no more than 2 pages in length.
What if . . . you were a security guard for a local mall and witnessed a youth enter the main entrance wearing a long, heavy, leather coat but it was a very hot summer day. What would go through your mind and how would you handle the situation? Consider what you have learned about constitutional rights, probable cause and terrorism. Explain your reasoning
.
Introduction to AI for Nonprofits with Tapp NetworkTechSoup
Dive into the world of AI! Experts Jon Hill and Tareq Monaur will guide you through AI's role in enhancing nonprofit websites and basic marketing strategies, making it easy to understand and apply.
How to Make a Field invisible in Odoo 17Celine George
It is possible to hide or invisible some fields in odoo. Commonly using “invisible” attribute in the field definition to invisible the fields. This slide will show how to make a field invisible in odoo 17.
The Roman Empire A Historical Colossus.pdfkaushalkr1407
The Roman Empire, a vast and enduring power, stands as one of history's most remarkable civilizations, leaving an indelible imprint on the world. It emerged from the Roman Republic, transitioning into an imperial powerhouse under the leadership of Augustus Caesar in 27 BCE. This transformation marked the beginning of an era defined by unprecedented territorial expansion, architectural marvels, and profound cultural influence.
The empire's roots lie in the city of Rome, founded, according to legend, by Romulus in 753 BCE. Over centuries, Rome evolved from a small settlement to a formidable republic, characterized by a complex political system with elected officials and checks on power. However, internal strife, class conflicts, and military ambitions paved the way for the end of the Republic. Julius Caesar’s dictatorship and subsequent assassination in 44 BCE created a power vacuum, leading to a civil war. Octavian, later Augustus, emerged victorious, heralding the Roman Empire’s birth.
Under Augustus, the empire experienced the Pax Romana, a 200-year period of relative peace and stability. Augustus reformed the military, established efficient administrative systems, and initiated grand construction projects. The empire's borders expanded, encompassing territories from Britain to Egypt and from Spain to the Euphrates. Roman legions, renowned for their discipline and engineering prowess, secured and maintained these vast territories, building roads, fortifications, and cities that facilitated control and integration.
The Roman Empire’s society was hierarchical, with a rigid class system. At the top were the patricians, wealthy elites who held significant political power. Below them were the plebeians, free citizens with limited political influence, and the vast numbers of slaves who formed the backbone of the economy. The family unit was central, governed by the paterfamilias, the male head who held absolute authority.
Culturally, the Romans were eclectic, absorbing and adapting elements from the civilizations they encountered, particularly the Greeks. Roman art, literature, and philosophy reflected this synthesis, creating a rich cultural tapestry. Latin, the Roman language, became the lingua franca of the Western world, influencing numerous modern languages.
Roman architecture and engineering achievements were monumental. They perfected the arch, vault, and dome, constructing enduring structures like the Colosseum, Pantheon, and aqueducts. These engineering marvels not only showcased Roman ingenuity but also served practical purposes, from public entertainment to water supply.
Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
June 3, 2024 Anti-Semitism Letter Sent to MIT President Kornbluth and MIT Cor...Levi Shapiro
Letter from the Congress of the United States regarding Anti-Semitism sent June 3rd to MIT President Sally Kornbluth, MIT Corp Chair, Mark Gorenberg
Dear Dr. Kornbluth and Mr. Gorenberg,
The US House of Representatives is deeply concerned by ongoing and pervasive acts of antisemitic
harassment and intimidation at the Massachusetts Institute of Technology (MIT). Failing to act decisively to ensure a safe learning environment for all students would be a grave dereliction of your responsibilities as President of MIT and Chair of the MIT Corporation.
This Congress will not stand idly by and allow an environment hostile to Jewish students to persist. The House believes that your institution is in violation of Title VI of the Civil Rights Act, and the inability or
unwillingness to rectify this violation through action requires accountability.
Postsecondary education is a unique opportunity for students to learn and have their ideas and beliefs challenged. However, universities receiving hundreds of millions of federal funds annually have denied
students that opportunity and have been hijacked to become venues for the promotion of terrorism, antisemitic harassment and intimidation, unlawful encampments, and in some cases, assaults and riots.
The House of Representatives will not countenance the use of federal funds to indoctrinate students into hateful, antisemitic, anti-American supporters of terrorism. Investigations into campus antisemitism by the Committee on Education and the Workforce and the Committee on Ways and Means have been expanded into a Congress-wide probe across all relevant jurisdictions to address this national crisis. The undersigned Committees will conduct oversight into the use of federal funds at MIT and its learning environment under authorities granted to each Committee.
• The Committee on Education and the Workforce has been investigating your institution since December 7, 2023. The Committee has broad jurisdiction over postsecondary education, including its compliance with Title VI of the Civil Rights Act, campus safety concerns over disruptions to the learning environment, and the awarding of federal student aid under the Higher Education Act.
• The Committee on Oversight and Accountability is investigating the sources of funding and other support flowing to groups espousing pro-Hamas propaganda and engaged in antisemitic harassment and intimidation of students. The Committee on Oversight and Accountability is the principal oversight committee of the US House of Representatives and has broad authority to investigate “any matter” at “any time” under House Rule X.
• The Committee on Ways and Means has been investigating several universities since November 15, 2023, when the Committee held a hearing entitled From Ivory Towers to Dark Corners: Investigating the Nexus Between Antisemitism, Tax-Exempt Universities, and Terror Financing. The Committee followed the hearing with letters to those institutions on January 10, 202
Palestine last event orientationfvgnh .pptxRaedMohamed3
An EFL lesson about the current events in Palestine. It is intended to be for intermediate students who wish to increase their listening skills through a short lesson in power point.
Welcome to TechSoup New Member Orientation and Q&A (May 2024).pdfTechSoup
In this webinar you will learn how your organization can access TechSoup's wide variety of product discount and donation programs. From hardware to software, we'll give you a tour of the tools available to help your nonprofit with productivity, collaboration, financial management, donor tracking, security, and more.
Read| The latest issue of The Challenger is here! We are thrilled to announce that our school paper has qualified for the NATIONAL SCHOOLS PRESS CONFERENCE (NSPC) 2024. Thank you for your unwavering support and trust. Dive into the stories that made us stand out!
Chapter 3 - Islamic Banking Products and Services.pptx
Tesla Motors Inc. SWOT AnalysisStrengths -The quality of .docx
1. Tesla Motors Inc. SWOT Analysis
Strengths
-The quality of Tesla electric cars on the market can compete
with the likes of BMW and Mercedes
-Brand Equity -Product Quality -Eco-friendly Product Line
-Tesla Superchargers are much faster than other charging
stations. It covered most regions in the U.S and had made Tesla
a feasible option for its consumers,
-The showroom technique of selling cars appeals to consumers
Weaknesses
-Tesla is not able to produce enough to meet consumers
demand. Compare to other companies with more capital.
-Batteries are inefficient regarding mileage and the cost
associated with producing the battery.
– Limited variety is provided for consumers.
-The selling price is very high.
-Majority of production is in the U.S. Shipping cost is high to
deliver vehicles around the world.
Opportunities
-Oil is becoming more scarce and expensive; there will be high
demand for electric cars.
- Increase Market Share through High-Growth EV Industry.
-Demand for electric cars is growing -Solar power technology is
advancing -More low priced models to tap into the rising
middle-class market. -Autonomous driving technology has
become popular, and Tesla has plans to release fully
autonomous vehicles.
Threats
-Tesla is facing intense competition from luxury and
environment-friendly brands.
- Tesla has a premium image, and it will take time to break this
2. image and bring affordable vehicles to consumers. Which will
be an excellent way to reduce the competitive threat.
-Legal and regulatory troubles can be costly and can lead to an
increase in costs. Tesla operates in many countries and subject
to legal and political regulation in those markets.
-People do not want to deal with charging and the amount of
time it takes and they believe charges do not give much mileage
-Tesla is always the subject of unfair scrutiny.
January 1, 2015. Elon Musk, chief executive officer (CEO) of
Tesla is taking it easy on this New Year’s
Day. While having his coffee, he scrolls through some recent
issues of The Wall Street Journal on his iPad.
A headline from one current story jumps out at him, “Gasoline
prices have declined for 88 consecutive
days, the longest streak of falling prices on record.”1 The slide
in gas prices, which began in September
2014, also happened to coincide with the slide in Tesla Motors
(TSLA) stock. With increasing oil, and
therefore gas, prices, people had an incentive for purchasing
electric cars. Now with gas prices drop-
ping, the incentive to buy would decrease, and the demand for
the product would probably drop. This
was one of the challenges facing Musk on this New Year’s Day.
Tesla was confronting increasing com-
petition and economic headwinds that were likely going to
lower the demand for electric cars. At the
3. same time, Tesla needed to ramp up production volume to drive
down per-vehicle costs.
Musk is a serial entrepreneur longing to leave a legacy, and he
believes that Tesla just might be the
company that will help him leave his mark. He has a large
profile already and has been described as
“Henry Ford and Robert Oppenheimer in one person,” as well as
“Tony Stark, the eccentric inventor
better known as Iron Man.”2, 3 (In fact, Musk made a cameo
appearance in Iron Man 2.) But, with sev-
eral pressing issues and the additional demands of running
SolarCity and SpaceX, can he find a way
to make it all work?
As Musk attempts to prioritize all of the critical information
that must be reviewed, he contemplates
the many obstacles in his path at Tesla Motors. Is Tesla the next
great American car company? Can it
disrupt the market with electric vehicles just as Japanese and
Korean car companies did in the past
with their high-quality, low-fuel-consumption combustion
vehicles? What is the competition doing
to compete with Tesla, and how will Tesla need to change or
adjust its strategy accordingly? Can an
electric-car company really gain a competitive advantage with a
limited infrastructure? Is Tesla’s busi-
ness model sustainable? Most importantly, can Tesla scale
production to meet demand for the Model S
and its upcoming Model X, while also maintaining the same
high quality and simultaneously driving
down costs? Should Musk consider instead selling to an
established car company or partnering even
more closely with one that already has an equity stake in Tesla?
As Musk reads The Wall Street Journal article, he reaches for
5. 2
Tesla Motors, Inc.
Elon Musk: Engineer Entrepreneur Extraordinaire
In 1989, Elon Musk left his native South Africa at age 17 to
avoid being conscripted into the army.
Says Musk, “I don’t have an issue with serving in the military
per se, but serving in the South African
army suppressing black people just didn’t seem like a really
good way to spend time.”4 He went to
Canada and subsequently enrolled in Queen’s University in
1990. After receiving a scholarship, Musk
transferred to the University of Pennsylvania. He graduated in
1995 with bachelor’s degrees in both
economics and physics and then moved to California to pursue a
PhD in applied physics and material
sciences at Stanford University.5
After only two days, Musk left graduate school to found Zip2,
an online provider of content pub-
lishing software for news organizations, with his brother,
Kimbal Musk. Four years later, in 1999, com-
puter-maker Compaq acquired Zip2 for $341 million (and was
in turn acquired by HP in 2002).
Not one to stand still, Elon Musk moved on to co-found PayPal,
an online payment processor. In
2002, eBay acquired PayPal for $1.5 billion, netting Musk
$175.5 million for his 11.7 percent share of the
company. Although it was financially lucrative, Musk still
harbors resentment about this deal. He feels
that letting eBay acquire PayPal sold short the company’s
potential, dooming it to a future as a niche
tool rather than a launch pad for a full-fledged, online financial
6. institution.
Musk describes himself as an “engineer and entrepreneur who
builds and operates companies to
solve environmental, social, and economic challenges.”6 He is
now leading firms on three different
fronts: electric cars, renewable energy, and space exploration.
Two of his three ventures—SolarCity and
SpaceX—seem to be doing well. SolarCity’s goal is to become
the Walmart of solar-panel installations,
and in 2014 it installed 34 percent of solar panels in the United
States.7 SpaceX aims to send satellites
into orbit at a quarter of the current cost. Since Musk took over
engineering responsibilities, he has
managed to launch rockets that reach outer space successfully.
In May 2012, SpaceX’s Dragon space-
craft attached to the International Space Station, exchanged
cargo payloads, and returned safely to
Earth. Until then, only governments had accomplished this
technically challenging feat. More recently,
SpaceX has taken over resupply missions to the International
Space Station, has begun collaborating
with NASA on a mission to Mars, and is working with Boeing
to develop a market for commercial
space passengers.8
Although crowned “2007 Entrepreneur of the Year” by Inc.
magazine, Musk feels that his personal
ambitions have not yet been fulfilled. Many in California’s
venture-capital and high-tech community
view Elon Musk as someone who has good ideas and breathes
life into risky ventures but then fizzles
out on them. He aims to prove them wrong. As a result, Musk’s
dreams for Tesla Motors, the California-
based designer and manufacturer of electric vehicles, are big; he
wants to leave a legacy through this
7. company. Thus, after firing three CEOs in the last few years,
Musk is now leading the company himself.
A Brief History of Tesla Motors
Tesla Motors (TSLA) was founded in 2003 in San Carlos,
California, as an automobile company dedi-
cated to developing electric vehicles. Co-founder Elon Musk
was also one of the first investors, putting
up $7 million initially, and later an additional $30 million.
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Tesla Motors, Inc.
3
Tesla Motors held a design contest for the styling of its first
product: the Roadster, code-named
“Dark Star.” Lotus Cars, a British manufacturer, won the
contest and jointly engineered and manufac-
tured the new vehicle. Lotus was a natural partner for this
project because of its experience and exper-
tise in building its own line of sports and racing cars. In fact,
the Tesla Roadster was modeled using the
Lotus Elise as a template. The partners designed the Roadster’s
chassis using Lotus software tools and
had it was manufactured by the same Norwegian company that
built the Elise.
8. In December 2006, Time magazine hailed the Tesla Roadster as
the best invention of the year in the
transportation category. In 2007, however, it became clear that
sales were not enough to sustain busi-
ness; the company was bleeding money. After combing through
Tesla’s financial situation, Musk found
that Tesla was losing $50,000 on each car sold. As CEO, Martin
Eberhard had led investors to believe
that the manufacturing of the Roadster cost only $65,000 per
car, which appeared to justify the $92,000
sticker price. In reality, Musk found that it cost Tesla $140,000
just for the parts, subassemblies, and
supplies to make each vehicle, and that the Roadster could not
even be built with Tesla’s current tools.
He also discovered major safety issues with the existing design.
Completely taken aback by the messy
state of affairs, Musk commented, “We should have just sent a
$50,000 check to each customer and not
bothered making the car.”9
Consequently, Musk fired Martin Eberhard and took over the
engineering himself. Almost every
important system on the car, including the body, motor, power
electronics, transmission, battery pack,
and HVAC, had to be redesigned, retooled, or switched to a new
supplier. Such dramatic changes were
necessary to get the Roadster on the road at something close to
the published performance and safety
specifications, as well as to cut costs to make the Roadster
profitable.10
Tesla Motors launched a completely redesigned Roadster in
2008 at a base price of $109,000.11 By
December 31, 2009, Tesla had 514 employees and had sold 937
Roadster models in 18 countries around
the world. More than 1,200 additional people had put in
9. deposits to reserve a Roadster, giving the com-
pany $70 million in interest-free loans. Three years later, on
December 31, 2012, Tesla had sold more
than 2,450 Roadsters.12 The 2008 version of the Tesla Roadster
had been discontinued and replaced
with a new model, the Tesla Roadster 2, with an improved
electric powertrain performance and lower
production costs. The Roadster Sport, which accelerates from
zero to 60 miles per hour in 3.7 seconds
(faster than a Porsche 911 GT), was the next vehicle added to
the pipeline. By end 2012, Tesla Motors
discontinued production of the Roadster altogether.
In March 2009, Tesla introduced to the public an early
prototype of the Model S family sedan. By
year-end, Tesla had received approximately 2,000 customer
reservations for the car, with a minimum
down payment of $5,000 each. The prototype had turned into a
premium sedan and garnered approxi-
mately 12,000 reservations by June 2012.13 Tesla manufactures
the Model S in the Fremont, California,
factory that it purchased from Toyota for $42 million in May
2010.14 The car seats five adults, goes from
zero to 60 in 4.4 seconds, and has a per-charge range of over
300 miles for the high-end version. As
Musk described the electric car’s efficiency and range on
Tesla’s blog, “With the 85 kWh Model S bat-
tery we set a goal of delivering a range greater than 300 miles
using the 2-cycle EPA test procedure that
we used with the Roadster. This is a goal that no electric
vehicle (EV) in history had ever achieved. We
are thrilled to say that we exceeded this goal.”15 One
University of Central Florida senior researcher
traveled more than 423 miles on a single charge in his Model S
Signature model, which boasts the larger
85-kilowatt-hour battery.16
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4
Tesla Motors, Inc.
Deliveries of the Model S began on June 22, 2012, and positive
feedback followed. As of December
2012, there were over 20,000 reservations for the vehicle, and
Tesla was producing some 500 cars a week
by the summer of 2013.17 The base price of the Model S has
been $52,400 (after a $7,500 tax deduction)
since January 1, 2013.18 The automobile magazine Motor Trend
gave the Model S glowing endorse-
ments, stating, “By any measure, the Tesla Model S is a truly
remarkable automobile.”19
In an attempt to build on its success with the Model S, Tesla has
begun work on a newly designed
seven-seat electric vehicle, the Model X, which will combine
the best features of an SUV with the ben-
efits of a minivan. Following several delays, Tesla planned to
deliver the first Model X in late 2015.20
In 2014, Telsa announced that after the Model S and Model X,
the next car it will produce is the Model
3.21 With this new model, Tesla attempts to enter the mass
market with a smaller vehicle that will cost
around $35,000 and has a range of 200 miles per battery charge.
The Model 3 is slated to go sale in 2017.
11. Tesla completed its IPO on June 29, 2010, the first IPO by an
American automaker since Ford in
1956. On the first day of trading, Tesla’s shares closed at
$23.89 and generated $226.1 million for the
company.22 Despite this, in its first annual report, Tesla
reported an operating loss of $146.8 million.23
Losses continued until the first quarter of 2013, when Tesla
announced its first profitable quarter in 10
years, with a GAAP profit of $11 million (see Exhibit 1).
Investors responded in kind to the black ink
in Tesla’s ledger, causing a surge in the stock price, and
pushing Tesla’s stock up over $280 per share
in early September 2014 before starting to slide (see Exhibit 2).
A compounding problem is that Tesla
has depended on $3 billion in convertible debt to finance capital
investments, and Tesla stock needs
to appreciate around 160 percent over the next six years to
avoid repayment or refinancing at higher
interest rates.24
The U.S. Automotive Industry
The Big Three automakers—GM, Ford, and Chrysler—have
dominated the U.S. automotive indus-
try for decades (see Exhibit 3). GM was once the leading U.S.
carmaker, with a market share of over 50
percent in 1962. By 2009, GM’s market share had eroded to less
than 20 percent, while the market share
of the Big Three combined dropped below 50 percent for the
first time ever.25 GM and Chrysler filed for
bankruptcy, while Ford was fighting hard to become profitable
again. What had caused their decline?
In the 1990s, the Big Three shifted resources away from mid-
size and compact cars to lead the “SUV
12. craze.” They built their business models around the assumptions
that gas prices would remain low for
the foreseeable future and that Americans would continue to
prefer big trucks and SUVs. For as long
as these assumptions held true, the strategy was quite
profitable; pickup trucks and SUVs provided the
highest margins of any vehicle class. In fact, the Ford F-150
pickup truck remains the most-sold vehicle
in the United States of all time. For a while, the Hummer 1
(with gas mileage of 7 mpg) was one of GM’s
most profitable vehicles.
However, when SUV sales peaked in 2004 and started to
decline, the Big Three were slow to detect
and adapt to the shift in customer purchase patterns. Then, in
the wake of the 2008 financial crisis, U.S.
car sales hit a historic low of some 11 million vehicles, down
from 18 million in 2000. While the price
of a gallon of gas rose to over $4 in the summer of 2008, up
from about $2 in 2005, there was a dra-
matic reduction in demand for new vehicles with trucks and
SUVs particularly hit hard. However, by
December 2014, gas prices had fallen to below $2 a gallon on
average in the United States (see Exhibit
4) contributing to people buying trucks again.26
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Tesla Motors, Inc.
13. 5
GM
The Big Three found it particularly difficult to compete in this
leaner financial environment due to
their higher cost structure. Unlike their foreign counterparts,
U.S. companies had to cover long-term
legacy costs for employee health care and pensions. GM was
particularly vulnerable in this regard. At
one point, GM paid the full cost of health insurance premiums
for all of its employees and their depen-
dents, as well as GM retirees and survivors. When U.S. health
care costs rose precipitously in the latter
part of the 20th century, most of these legacy plans ended up
chronically underfunded. Taking steps
such as providing retirement packages to older workers and
negotiating agreements with unions to
transfer pension dues to an independent trust helped, but they
fell far short of solving GM’s financial
woes.
Compounding the company’s financial situation further, GM
had also made large concessions to
the United Auto Workers (UAW) union, driving up hourly
wages and benefits. For example, laid-off
autoworkers could await re-employment while enjoying almost
full wages at so-called job banks. GM
was caught in a classic catch-22. Given the costs of unionized
labor, GM was unable to make money
on small, fuel-efficient cars without heavy government
subsidies through tax incentives.27 Yet because
the UAW had a monopoly over GM’s labor force, GM could not
take appropriate actions to reduce its
labor expenses, either by laying off workers or by negotiating
more competitive wages. Bankruptcy
14. was inevitable.
The GM that reemerged 60 days after the bankruptcy filing had
a significantly restructured balance
sheet and four fewer brands (Hummer, Pontiac, Saab, and
Saturn). In order to “bail out” the firm, the
U.S. government provided close to $58 billion under the
Troubled Asset Relief Program (TARP), mak-
ing it the de facto owner of the company. In December 2012,
GM announced that it was going to spend
$5.5 billion to buy back a large portion of its stock that was
being held by the U.S. Treasury, and the
U.S. government sold the last of its shares in December 2013.28
Overall, the U.S. government lost about
$10.5 billion on its 49.5 billion dollar investment in GM.29
Meanwhile, in 2014, GM announced a record
number or automobile recalls, including ignition switches
attributed to several deaths.30
CHRYSLER
In 1998, German car manufacturer Daimler paid $36 billion to
acquire a troubled Chrysler
Corporation. Touted by some as a “merger of equals,” the true
nature of the deal became apparent
when several senior U.S. managers either left or were fired and
then replaced by Daimler managers.
Their decision to retire the Plymouth brand fueled the brewing
mistrust even more.31 Theoretically, the
acquisition gave Chrysler entry into European markets, created
a larger, complementary product line
(Chrysler sold SUVs, minivans, and mass-market cars, while
Daimler specialized in luxury sedans and
sports cars), and provided both companies with increased
market power.
15. However, the management cultures of the two companies
clashed, and DaimlerChrysler never
achieved the anticipated synergies.32 Ultimately deciding it was
better off on its own, Daimler sold 80.1
percent of Chrysler to Cerberus Capital for $7.4 billion in
August 2007. Cerberus took Chrysler private
in a leveraged buyout, hoping to restructure the company away
from the pressure of public financial
reporting. Unfortunately, Chrysler’s problems were too big for
even Cerberus to fix, and the company
declared Chapter 11 bankruptcy on April 30, 2009.
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6
Tesla Motors, Inc.
At this point, the federal government intervened, paying $6.6
billion to finance the company’s
restructuring into the “New Chrysler.” Of that amount, 55
percent was owned by a pension fund and
25 percent by the Italian carmaker Fiat, with the U.S. and
Canadian governments holding minority
stakes.33,34 Subsequent restructuring reached an important
milestone with Fiat Chrysler beginning
trading on the New York Stock Exchange on 13 October,
2014.35 Fiat provided Chrysler with a platform
for smaller, more fuel-efficient cars and access to Fiat’s global
distribution network. Chrysler hoped
16. to realize cost savings in design, engineering, manufacturing,
purchasing, and marketing, while Fiat
gained significant access to the U.S. auto market.
FORD
Ford, on the other hand, had raised $24.5 billion in capital by
mortgaging almost all of its assets dur-
ing the height of the financial bubble, giving it access to a large
line of credit.36 This included Ford’s
trademark blue oval that it did not regain control over until May
2012.37 While supporting GM’s and
Chrysler’s requests for a government bailout, Ford did not
request, nor did it receive, any government
funding. With attractive new models, such as the Ford Focus
and the redesigned Ford Explorer, the
company is currently experiencing a renaissance.
In October 2012, Ford posted a $1.6 billion third-quarter profit,
a consequence of the successful
implementation of its strategy of charging more for its vehicles
while spending less to develop them.
According to its chief financial officer, Robert Shanks, “If you
go back 5 or 10 years ago, we had very
good margins on our trucks . . . we did OK on larger
SUVs . . . we didn’t do particularly well on the
large cars and we just lost massive amounts of money on the
other cars.” Now, Shanks noted, Ford
makes money on its small cars as well as its large vehicles.
“That is a huge change from where we
were.”38 Ford has developed eco-boost technology that is
improving fuel economy in its larger cars, as
well as considering a move into electric vehicles.39
FOREIGN COMPETITION
17. Since the first oil price shock in 1973–1974, foreign car
manufacturers have made steady inroads into
the U.S. market. Investing more in research and development,
compared with the Big Three, German,
Japanese, and Korean carmakers were perceived to offer
vehicles of higher quality, more advanced
engineering, and better fuel efficiency. Because they were not
burdened with health care and pen-
sion costs, the foreign companies could also make and sell their
vehicles at lower prices (leading to
increased sales and/or higher margins). By November 2012,
Japanese automakers Toyota and Honda
were number three and five in sales volume in the United
States, respectively. Nissan (Japan), Hyundai
(Korea), and Kia (Korea) have also become strong competitors
in the U.S. market.40
Japanese carmakers Toyota and Honda have long been
considered the leaders in producing high-
quality, fuel-efficient cars. Toyota has always been Japan’s
largest automaker, and in early 2009, it
overtook perennial world leader GM in both production and
sales. Since then, GM and Toyota have
exchanged positions several times for the top spot in total
worldwide sales. Honda is Japan’s second-
largest automaker and ranks fifth in the world, behind GM,
Toyota, Volkswagen, and Ford. Due to
Voluntary Export Restraints (VERs) enacted by the Reagan
administration in 1981, Japanese companies
have invested heavily in U.S. production facilities. Japanese
plants are typically non-unionized and
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Tesla Motors, Inc.
7
are located in the southern United States, where the costs of
living are lower, away from their northern
domestic competitors. Along with philanthropy, lobbying
efforts, and sharing technology, establish-
ing U.S. production facilities was a significant step in
improving public relations and decreasing their
liability of foreignness.
Developmentally, Korean car manufacturers today occupy a
position in the U.S. automobile market
similar to that of the Japanese companies in the 1980s. Viewed
as the cheaper, fuel-efficient alternatives
to American, Japanese, and European cars, they are gaining
more widespread recognition and accep-
tance among American car buyers. Some experts argue that
Hyundai is already on par in quality with
Toyota and Honda.
Other competitors on the horizon include the emergence of
Chinese car manufacturer’s, including
BYD Motors that is selling plug-in electric hybrids in China.
BYD may have a clear advantage from
starting as a battery company and it has developed lithium iron
phosphate batteries, which permit
cars to run 250 miles on a single three-hour charge.41, 42 BYD
has begun delivering a 40-foot bus with a
24-hour battery life that can travel 155 miles from its Lancaster,
California, plant in what is likely a first
19. step to establishing a U.S. presence for electric automobiles.43
As the first Chinese car manufacturer
poised to break into Western markets, BYD has attracted the
attention of Warren Buffett, who invested
some $230 million for a 10 percent equity stake in the company.
While BYD is not currently offering
electric automobiles abroad, the sticker price of BYD cars is
anticipated to be significantly lower than
current Tesla models.
The three largest German carmakers—Daimler, BMW, and
Volkswagen—in 2013 each held between
2 and 4 percent of the U.S. market.44 Demand for Volkswagen
vehicles has continued to rise, if slowly,
without hurting profitability.45 Porsche, a wholly owned
subsidiary of Volkswagen since 2012, is a
strong niche player in the luxury sports vehicle segment, while
Audi, a wholly owned subsidiary
of Volkswagen since 1966, has gained a strong reputation for its
mid-size luxury sedans and SUVs.
Like their Japanese counterparts, German car manufacturers
have gained market share steadily over
the last several years through perceived superior engineering
and styling capabilities. As fuel prices
increased, demand for German vehicles has also risen, since
they combine sportiness and luxury with
fuel efficiency.
Alternative Propulsion for Cars
The oil embargoes of the 1970s first highlighted the need for
smaller, more fuel-efficient vehicles.
Concerned about U.S. reliance on foreign oil, Congress voted to
append Title V, “Improving Automotive
Efficiency,” to the Motor Vehicle Information and Cost Savings
Act. This legislation established CAFE
20. (Corporate Average Fuel Economy) standards for passenger cars
and light trucks, and set a goal of
doubling new-car fuel economy by model year 1985.46
In 1990, the California Air Resource Board (CARB) passed a
mandate for the introduction of zero
emission vehicles (ZEVs). The act specified that 2 percent of
the vehicles produced for sale in California
had to have zero emissions by 1998, increasing to 5 percent in
2001 and 10 percent in 2003. Subsequent
amendments dropped the 1998 and 2001 requirements, but left
the 10 percent value for 2003 in place
while also allowing credits for partial-ZEV cars.47
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Importantly, the ZEV mandate is credited with stimulating
increased research and development of
the electric-car prototype. The first electric production car EV1
(made by GM) came to market in 1996
in California and Arizona as a lease-only vehicle. Competitors
Toyota and Honda quickly followed
suit with their own EV cars. However, most of these early
models were discontinued after automakers
successfully challenged the mandate in Federal District Court in
2002, winning significant concessions
21. and delays from the CARB. In hindsight, former GM Chairman
and CEO Rick Wagoner said that the
worst decision of his tenure at GM was “axing the EV1 electric-
car program and not putting the right
resources into hybrids. It didn’t affect profitability, but it did
affect image.”48 GM research and develop-
ment (R&D) chief Larry Burns now wishes GM had not killed
the EV1 prototype his engineers had on
the road over a decade ago: “If we could turn back the hands of
time,” says Burns, “we could have had
the Chevy Volt 10 years earlier.”49
The next major development occurred in 2003, when the U.S.
government supported investments
of $1.3 billion in research into hydrogen-powered vehicles.
Ironically, around this same time Congress
also passed accelerated depreciation tax breaks of up to
$100,000 for buyers of gas-guzzling SUVs,
compared with $4,000 for buyers of electric cars, with major
unintended consequences. Although the
$100,000 tax break was intended for commercial trucks, as
written, it included all trucks. This allowed
GM to push sales of the original Hummer 1, with a sticker price
of $125,000 and a 7-mile-per-gallon
fuel consumption.
Interest in alternative energy sources has remained strong due to
growing environmental concerns
and volatile crude-oil prices. This time, car manufacturers have
responded by making significant
investments in the research and development of various
competing energy technologies. A classic stan-
dards battle seems to be emerging, with the winner likely to
create a new paradigm for personal trans-
portation. Electricity, hydrogen, biodiesel, compressed natural
gas, and ethanol are the most common
22. alternatives being considered as replacements for fossil fuels.
Still, others predict that the internal com-
bustion engine will be around for another 50 to 100 years, at
least in hybrid vehicles. In 2009, however,
CAFE standards were further raised, requiring an average fuel
economy of 35.5 miles per gallon for
model years 2012–2016.
There has been a steady increase in the number of alternative-
fuel vehicles since 1995 (see Exhibit 5).
As of 2010, there were almost 1 million in use in the United
States, and this trend should continue into
the future as more and more manufacturers focus their efforts
on this initiative.
BATTERY ELECTRIC VEHICLES
There are two basic types of electric vehicles. One is the “pure”
electric vehicle (sometimes referred
to as the battery electric vehicle or BEV), which uses only
batteries to supply the electric energy needed
for propulsion. Leveraging the fact that electric motors can also
act as generators, electric vehicles uti-
lize regenerative braking to save a significant portion of the
energy expended during acceleration, thus
increasing the energy efficiency of the vehicle. In addition, pure
electric vehicles have a high torque
over a larger range of speeds during acceleration compared with
internal combustion engines. For
example, the Tesla Roadster was rated at 288 horsepower (hp)
and accelerated faster than a 911 Porsche
GT. Running and servicing costs of the electric car are also
much lower than its gasoline-based coun-
terparts; Tesla Motors estimated that the cost per mile driven
with the Roadster was just $0.02. This is
because electric motors and gearboxes have relatively few
23. moving pieces, compared with the hundreds
of precision-engineered parts necessary for an internal
combustion engine. BEVs are usually very quiet
and do not emit any exhaust gases.
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The major disadvantage of BEVs is the battery. It is the most
expensive part of the car, is subject to
deterioration over its lifetime, is heavy, requires long charging
times, and offers a very limited energy-
to-weight ratio. This low ratio significantly restricts the driving
range of electric vehicles. Finding an
economic balance of range versus performance, battery capacity
versus weight, and battery type ver-
sus cost therefore challenges every BEV manufacturer. A
nickel-metal hydride (NiMH) battery typi-
cally lasts the life of the vehicle, but the range tends to be less
than 200 miles, and it takes hours to
recharge the battery. Newer BEVs equipped with lithium-ion
batteries provide 250 to 300 miles of range
per charge. Many experts believe that battery-production
problems could be the limiting factor for the
electric-car industry. “Batteries are absolutely the No. 1
constraint for electric cars,” says Mark Duvall,
a researcher at the Electric Power Research Institute in Palo
24. Alto, California, a utility-funded research
organization. “It’s also the single-most expensive component
right now.”50
As a result, Telsa has committed to building a 980-acre facility
near Reno, Nevada, to build its own
lithium-ion battery intended to produce 500,000 battery packs a
year to supply its automobile assem-
bly plant in Fremont, California.51 The facility is intended to
begin production in 2017 and require a
$5 billion dollar investment that places the plant near sources of
lithium and allows for powering the
plant with renewable energy.52 Questions remain whether
lithium-ion batteries will be able to provide
the needed performance for battery life and recharging time,
making this a large gamble. Ironically,
another risky move may help make Tesla’s battery investment
pay-off. One June 12, 2014, Elon Musk
posted that Tesla was making its patents open source.53 The
move has led established carmakers, such
as BMW and Nissan, to consider using Tesla’s technology, and
if this happens, it will help to establish
it as the industry standard.54
Still, others are interested in advancing battery technology. For
example, a number of small U.S.
firms focus their R&D on lithium-ion batteries with the hope of
supplying automakers. Both Boston
Power Co., which supplies batteries for Hewlett-Packard
laptops, and Valence Technology Corp., which
makes batteries for the Segway scooter, plan to expand into
making automotive batteries. Chinese and
Japanese firms, such as BYD Motors, Panasonic, Sony, and
Sanyo Electric, that already have expertise
making lithium-ion batteries, are also jockeying for a share of
this emerging industry. Former chair-
25. man Andy Grove is even pushing Intel to manufacture advanced
batteries for plug-in electric cars.55
According to Mr. Grove, unless U.S. firms get serious about
developing a cutting-edge battery soon, the
nation may achieve a Pyrrhic victory, breaking an addiction to
imported oil through the use of electric
cars but replacing it with a dependence on imported batteries.
Despite battery constraints, car manufacturers, including the
Big Three and foreign automakers,
have introduced their first electric-only vehicles to the market.
Chrysler founded its environmental
protection division (ENVI) in 2007 to create electric-drive
vehicles and introduced its first “production
intent” prototype one year later: an electric-only Dodge EV
sports car. However, after Fiat took over
Chrysler, the company disbanded the ENVI electric-car division
and dropped its models from future
product plans, but it has recently introduced the Fiat 500e that
has a range of 87 miles per charge.56 In
December 2012, Ford introduced the Ford Focus electric vehicle
into the U.S. market at a starting price
of $39,200 and a range of 76 miles.57 General Motors will add
an all-electric vehicle (Chevy Bolt) in 2017
with an estimated range of 230 miles per charge and priced at
around $40,000 to complement its Volt
plug-in hybrid electric compact ($26,685).
Among Japanese carmakers, the Nissan Leaf is a compact five-
door, five-passenger hatchback, with
an all-electric range of 73 miles on a single charge in city
driving, and an estimated fuel economy of
at least 99 miles per gallon gasoline equivalent. The Leaf is
manufactured at Nissan’s Smyrna plant in
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Tennessee, and it leads the electric-car market with 40,000 cars
sold in 2014.58 The 2015 model is listed
at an estimated sticker price of roughly $21,510 after subsidies
and tax credits are applied.59 Mitsubishi
currently sells its i-MiEV (Mitsubishi innovative Electric
Vehicle) in the United States. The i-MiEV will
run for approximately 62 miles between charges and has an
estimated fuel economy of 112 miles per
gallon equivalent.60 In addition, several smaller European
companies have introduced future concept
cars. Monaco-based Venturi has one high-end electric sports car
in production, the Fétish, which sells
for about $400,000 but is not intended for mass markets.61
There are also nontraditional competitors entering the electric-
vehicle market. For example, Google
has been working on a self-driving car and in January 2015 it
unveiled a prototype.62 There were also
news reports of Apple investing in an electric car under the
codename “Titan.”63 None of these has the
performance of a Tesla, but both are firms with established
brands, credibility, and significant financial
resources. Overall, BEVs are appearing with increasing variety
in range options and pricing points.
An open question is whether Google and/or Apple will enter the
27. car manufacturing business or focus
on the software and batteries, and thus take on more the role of
original equipment manufacturers
(OEMs) that license their technology to others, much like
Google has done with its Android operation
system, where it set a standard in the industry. On the other
hand, Apple preferred a more proprietary
approach with its mobile devices, integrating hardware,
software, and services to lock customers into
its ecosystem.
PLUG-IN HYBRID ELECTRIC VEHICLES
The other type of electric vehicle relies on hybrid propulsion,
which combines an electric motor with
an internal combustion engine. Hybrid electric vehicles (HEVs)
have all the advantages of pure elec-
tric vehicles, but avoid the range-restriction problem through
the use of a gasoline-powered internal
combustion engine. Plug-in hybrid electric vehicles (PHEVs)
contain a battery that stores electricity
for the electric motor and can be recharged. Because the battery
shares the propulsion load, hybrid
engines are significantly smaller than their traditional gasoline
counterparts, reducing vehicle weight
and cost share. PHEVs can reduce air pollution, dependence on
petroleum, and greenhouse-gas emis-
sions. Other benefits include improved national energy security,
fewer fill-ups at gas stations, the con-
venience of home recharging, opportunities to provide
emergency backup power in the home, and
vehicle-to-grid applications.
Elon Musk is a strong opponent of hybrid vehicles. He argues
that HEVs combine the disadvan-
tages of both electric and gasoline-powered vehicles, negating
28. the advantages that each type offers. He
argues that hybrids are “bad electric cars” because they must
carry around an additional engine and
drive train, adding weight, cost, and additional parts to maintain
and repair.64 He criticizes the com-
bustion engines as too small, “anemic,” and inherently less
efficient than full-size engines. Moreover,
the combination of these technologies in a single vehicle adds
to the technological complexity, which
increases cost, error rates, and maintenance efforts. Hybrid
supporters, on the other hand, are optimis-
tic that these disadvantages can be mitigated through continued
research and development.
Despite their shortcomings, sales of hybrid vehicles in the
United States increased steadily from 1999
through 2007, and then they started to decline in conjunction
with the overall sales of automobiles due
to the recession. As car sales have climbed again since 2011,
hybrid sales have also experienced gains.
Toyota sold the majority of the early hybrids, introducing the
Prius in 2000, only one year after the first
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commercial HEV, the Honda Insight, entered the market. In
29. September 2012, Toyota estimated that
“sales of hybrid models worldwide will likely top 1 million this
year and every year through 2015.”65
In line with this projection, Toyota plans to roll out 21 new or
redesigned hybrid vehicles by the end
of 2015.
American manufacturers have been relatively slow to follow
Toyota’s lead in hybrid technolo-
gies. At the 2009 North American International Auto Show in
Detroit, Chrysler unveiled the 200C EV
Concept minivan (“Electric Town and Country”) and the Jeep
Patriot EV, both range-extended (electric
and gas engine) vehicles. As with Chrysler’s pure electric sports
car prototype, however, these models
were discontinued when Fiat shut down Chrysler’s ENVI
division and have been supplanted by Fiat’s
500e effort. By 2012, Ford had introduced two hybrid-car
models into the U.S. market: the Ford C-Max
Hybrid priced at approximately $25,000 and the Ford Fusion
Hybrid priced at $23,000.
More than 10 years after the Toyota Prius first debuted, GM is
seeking to challenge the Prius’ mar-
ket dominance with its Chevrolet Volt, first introduced in 2007.
The Volt is a so-called plug-in hybrid,
enabling the Volt to achieve a fuel economy of 50 miles per
U.S. gallon. The Volt has a long way to go
before it can become a serious contender for the mass-hybrid
market, however. Not only does it come
with a sticker price of about $40,000, compared with $23,000
for the Prius,66 but also the early model
Volt experienced some serious technical problems. It needs to
be charged for six hours to gain the
necessary battery power for a single 40-mile drive. The Volt’s
gas engine extends its range beyond the
30. 40-mile battery limit, but this introduces another issue: the gas
tank must be drained periodically in
order to keep the gasoline from going bad.
Even worse, GM is unlikely to recoup its R&D expenses,
causing some analysts to charge that the
Volt is nothing more than a “show car” to demonstrate that GM
understands the trends in the market
and is investing in next-generation vehicle technologies.67 In
fact, GM had to halt production of the Volt
for several weeks in 2012 due to weak demand for the vehicle.
There is also strong speculation that GM
is losing money on every Volt sold, partly due to low-priced
leasing packages and price reductions that
were intended to attract customers and drive sales.68
In the luxury segment, Quantum Technologies and Fisker
Coachbuild, LLC, announced the launch
of a joint venture (Fisker Automotive) in September 2007.
Fisker Automotive launched a luxury plug-in
hybrid, the Fisker Karma, in 2011 with an initial price of
$110,000, but it halted production in July 2012
due to financial problems. In December 2012, the company
announced that it had hired an investment
bank to help raise funds for the cash-strapped company. It is
also actively seeking partners in China
and parts of Europe, where the company feels that there is a
stronger interest in electric cars. Fisker
Automotive had hoped to find new capital, possibly from the
sale of the company.69 In April 2013,
Fisker ended up laying off 75 percent of its employees and
began the process of filing for bankruptcy.70
In 2015, Fisker Automotive was renamed Elux as part of a deal
with Chinese automotive-supplier
Wanxiang with plans to relaunch its Karma electric vehicle in
2016.71
31. Despite the problems it has encountered with the Chevrolet
Volt, General Motors entered the luxury
plug-in hybrid market with the introduction of the Cadillac
ELR. The Cadilac ELR was introduced in
June 2014 and it was universally criticized and experienced low
sales.72 It is expected to be available
in the United States in 2014 and will be manufactured in
Michigan in the same plant as the Volt. The
Cadilac ELR remains in production with updates planned for its
2015 and 2016 models.
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BIOFUELS AND NATURAL GAS
In addition to electricity, researchers are exploring ethanol and
natural gas as alternative fuels for
automobile propulsion systems. Ethanol is a biofuel easily
derived from natural sugars (starch) in crops
such as sugar cane and corn. With a small amount of redesign,
gasoline-powered vehicles can run on
ethanol concentrations as high as 85 percent (E85).
While biofuels do not contribute to carbon dioxide emissions,
they are still not free of criticism. Some
32. believe that the use of ethanol as a source of fuel is responsible
for an increase in food prices.73 Not only
must huge swaths of land be devoted to specific crops, but also
the crops that are grown must go to
make fuel instead of feeding people or farm animals. Critics
also argue that growing the crops requires
more energy than the fuel they produce, making the process
inherently inefficient. Further, the use of
crops for fuels is highly politicized. In the United States,
ethanol derived from corn or sugar cane can
be competitive in price only because of government subsidies.
Other countries, such as Brazil, can
produce biofuels much more cost effectively due to the ready
availability of an unskilled labor force,
but the U.S. government has barred these cheaper Brazilian
imports from entering the U.S. market in
order to protect domestic producers. Factoring in these
subsidies and trade barriers makes biofuels a
net-loss-incurring business.74
Biodiesel, produced from oilseed, has been a more popular
substitute in European countries, where
gasoline is four times more expensive than in the United States.
Although biodiesel is commercially
available in most oilseed-producing states, it is somewhat more
expensive than fossil diesel. In addi-
tion, biodiesel has lower energy density than either fossil diesel
or gasoline, resulting in a decreased
fuel economy. Nevertheless, biodiesel engines are considered to
be more environmentally friendly than
gasoline engines because they do not emit carbon dioxide.
High-pressure compressed natural gas, composed mainly of
methane, can also be utilized in place of
gasoline to fuel normal combustion engines. The combustion of
methane produces the lowest amount
33. of carbon dioxide of all fossil fuels. Cars can be retrofitted to
run on compressed natural gas as well as
gasoline, allowing the driver to alternate between fuel sources
during operation.
HYDROGEN AND FUEL CELLS
Hydrogen may serve as an alternative fuel through one of two
methods: combustion or fuel-cell con-
version. In combustion, the hydrogen is “burned” in engines in
fundamentally the same way as gaso-
line. In fuel-cell conversion, the hydrogen is turned into
electricity through fuel cells, which then power
electric motors. German carmakers Volkswagen and Audi have
started their own research departments
on fuel cells, while Mercedes plans to start a limited 200-car
series of its B-class model based on fuel-cell
technology.
One primary area of ongoing research aims to increase the range
of hydrogen vehicles while reduc-
ing the weight, energy consumption, and complexity of the
storage systems. The major disadvantage
for both the combustion and fuel-cell methods is that there is no
infrastructure to supply and store
hydrogen in mass quantities. Building such infrastructure will
require not only the automakers, but
also governments, to make commitments to hydrogen
technology. As a result, some experts believe
it will be some time before hydrogen cars are economically
viable.75 Still, major manufacturers have
formed partnerships for researching fuel-cell technology. In the
summer of 2013, GM and Honda
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decided to work together to create the technology and
infrastructure for refueling fuel-cell-powered
vehicles. Nissan and Ford are working together to develop fuel-
cell-powered vehicles as early as
2017.76 Meanwhile, Toyota has announced plans for a $57,000
car using fuel cells relying on network of
hydrogen-fuelling stations.77
QUEST FOR A STANDARD
Although many alternative fuel sources are currently in
production and development, no overall
industry standard has yet emerged. Companies that have
invested considerable sums of money in
R&D continue to push their technology as the best. Wary of
betting on the wrong technology, many car
manufacturers have opted to sit on the sidelines until a clear
winner emerges, which slows the pace of
progress.
Meanwhile, determining a new standard for fuel and propulsion
systems is only the first step toward
reducing our reliance on fossil fuels. Just as we have multiple
oil companies, nationwide systems of
gas stations, and pipelines to ship gasoline from the refineries
to the pump, any alternative energy
35. will require its own unique infrastructure. At the same time,
standardized supporting technologies
and peripheral devices must be developed so that the new
vehicles can be “refueled,” repaired, and
serviced anywhere they travel. We take for granted that the
same gas pump nozzle fits into the tank of
a Honda minivan and a Mini Cooper, and that the same grade of
gasoline is available no matter where
we stop to refuel. Similarly, windshield wiper fluid, engine oil,
and antifreeze can be purchased with-
out regard for make or model. These supporting “details” are
perhaps the biggest obstacle that has kept
any of the new alternative propulsion technologies from being
fully embraced.
Electric-Car Infrastructure
There have been four major types of infrastructures under
development to extend the range and
decrease the charging times of pure electric vehicles. First, the
U.S. National Institute of Standards and
Technology and the Federal Energy Regulatory Commission are
heavily involved in the definition of
future smart-grid standards.78 The U.S. government currently
offers economic incentives to encour-
age electric vehicle ownership, and it realizes that an electric
infrastructure must be in place to meet
the needs of on-the-go Americans. Smart grids are electricity
networks that utilize two-way digital
metering, sensing, monitoring, and control technologies to
improve electricity production, transmis-
sion, distribution, and consumption. By providing information
about grid conditions to system users,
operators, and automated devices, the smart grid enables
dynamic responses to energy needs, which
in turn saves energy, reduces costs, and increases reliability.
36. Once installed nationwide, the smart grid
could also provide a means of recharging batteries for electric-
powered vehicles.
Better Place, a California-based electric-vehicle services
provider, attempted another infrastructure
type. Shai Agassi, the Israeli-American founder of Better Place,
likened the firm’s model to that of
a telecom provider, from whom users buy charged-battery
minutes. If the service contract is large
enough, Better Place might even provide a “free” or highly
subsidized car itself, much like telecom pro-
viders provide discounted cell phones when customers sign two-
year service agreements.79 In March
2008, Deutsche Bank analysts stated that the company’s
approach could mark a “paradigm shift” that
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causes a “massive disruption” to the auto industry, and that
Better Place has “the potential to eliminate
the gasoline engine altogether.”80
However, major German carmakers (which wield considerable
market power) are skeptical of
Agassi’s model. They claim that Better Place’s business plan
37. stifles creative design freedom by intro-
ducing too many constraints on the car’s body. Further, there
are unresolved legal issues with battery
ownership between the station operator, Better Place, and car
owners. As forecasted by the skeptical
German automakers, Agassi’s company eventually filed for
bankruptcy and started liquidating assets
in July 2013 due to the slow-paced development of the electric-
car market.81 Since Better Place’s demise,
it has been up to Tesla to make the push for a nationwide
network of electric-vehicle service stations.
Tesla is prepared to build charging stations around the United
States so that drivers can drive across
the country for free. Tesla developed and built the start of this
network largely in secret, rolling out sta-
tions in the California towns of Folsom, Gilroy, Harris Ranch,
Barstow, Tejon Ranch, and Los Angeles.
As of spring 2015, Tesla operates close to 400 supercharger
stations with over 2,100 superchargers (see
Exhibit 6). The company has stated that the goal of the
infrastructure is to enable “fast, purely electric
travel from Vancouver to San Diego, Miami to Montreal and
Los Angeles to New York.”82
This only applies if you drive a Tesla, or cars using the same
technology. So far, the charging stations
are compatible only with properly equipped Model S vehicles,
which raises the question of whether
or not Musk should be spending millions of dollars building an
infrastructure that only one car on the
road can benefit from on a daily basis. Increasing the utilization
of this investment appears to be behind
Tesla making its patents open source. Tesla’s “supercharging”
stations are capable of charging a battery
up to a 200-mile range in 30 minutes, free of charge. Realizing
38. that this is still much slower than pump-
ing gas, Musk prepared his own public marketing stunt. At a
live event, he publicly demonstrated the
replacement of two Model S battery packs via a robotic system
in the same amount of time that it took
a Tesla employee to pump 20 gallons of gas. Thus, he proved, at
least in his mind and the mind of many
Tesla enthusiasts, that electric cars have the potential to refuel
faster than their gas-powered brethren.
Eventually, supercharging stations will be equipped with this
battery-swapping system. Although the
service would cost Tesla-owners between $60 and $80 per swap,
it is intended to be comparable to the
cost of pumping a full tank of gas.83
Strategic Partnerships
Tesla has managed to strike some important deals with big
players in the automobile industry. In
2009, German automotive engineering powerhouse Daimler
purchased a nearly 10 percent equity stake
in Tesla, worth an estimated $50 million.84 Musk and his team
wowed the skeptical Daimler execu-
tives by modifying an off-the-shelf Daimler Smart car into an
all-electric vehicle in only six weeks.85
The collaboration deepened in February 2012, when Tesla
released the following statement: “We are
also pleased to announce the start of a development program
with Daimler for a new Mercedes-Benz
vehicle with a full Tesla powertrain.”86 By the end of 2014,
however, Daimler had sold its equity hold-
ings in Tesla, although it plans on continued partnership and
cooperation.87
Daimler isn’t the only traditional automaker to take an interest
in Tesla. After Musk took the com-
39. pany public in 2010, Toyota bought $50 million (or 2.4 percent)
of Tesla’s stock.88 With this deal, Tesla
got ownership of the New United Motor Manufacturing, Inc.
(NUMMI), automotive factory, which it
later purchased outright, in Fremont, California. NUMMI was
initially set up as a joint venture between
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Toyota and GM. GM withdrew from NUMMI as part of its
bankruptcy reorganization in 2009. Tesla
announced in October 2010 that it would go into a further
partnership with Toyota by providing parts
that will power the electric version of Toyota’s crossover SUV,
the RAV4.89 Like Daimler, by the end of
2014, Toyota had sold some of its 2.4 percent stake in Tesla.90
Both, Daimler and Toyota, walked away
with sizeable capital gains.
In addition, Tesla managed to bring Panasonic, one of the
world’s electronic giants, on board.
Panasonic’s aim is to combine its experience in battery
technology with Tesla’s capabilities in elec-
tric powertrain development. The goal for Panasonic is to
become the number-one Green Innovation
Company in the electronics industry by 2018, the 100th
40. anniversary of its founding.91
International Expansion
At the same time that Tesla was pursuing strategic relationships
with leading electronic and auto-
motive companies, it started to expand its network of company-
owned stores. Previously, all sales had
been conducted either via the phone or Internet or in person at
corporate events or company headquar-
ters. By early 2015, Tesla had over 60 sales locations
throughout the United States and Canada, 40 stores
in Europe, and 7 in Asia.92 However, Tesla appears to have
stumbled in China with high prices, limited
service locations, and problems with charging stations.93 Tesla
will continue to push internationally,
and the company is targeting major metropolitan areas,
including Chicago, New York, Los Angeles,
London, Munich, Madrid, Tokyo, Hong Kong, and Sydney
(Australia).
To differentiate itself from its competitors and provide a
superior customer experience, Tesla has
opted not to create franchised dealers, but instead maintains all
sales and service operations in-house.
Still, the approach of owning its own stores and not franchising
dealerships has led to legal issues in
several states.94 Beginning in 2010, the company also created a
wholly owned subsidiary, Tesla Motors
Leasing Inc., to provide a leasing alternative to its customers.95
The program was “improved” in 2014
by bringing in U.S. Bank to provide the needed financing at a
lower cost than Tesla.96
Price Pressure
41. Importantly, a study conducted by Nielsen found that, in the
United States, 72 percent of people
polled have considered buying or would buy an electric vehicle.
However, 65 percent of Americans
would not pay more for an electric vehicle than for traditional
car models. Of those who said they
would be ready to pay more, most were willing to pay no more
than an additional $1,000 to $5,000. 97
Thus, electric vehicles will need to compete on price and not on
technology alone. To bring down unit
costs, however, electric-car manufacturers like Tesla must be
able to scale production and thus must sell
more units. Conventional wisdom in the industry holds that a
car manufacturer must produce at least
1 million units on a given platform to be price competitive.
Combined with lower fuel prices, the contents of the Nielsen
report may spell trouble for Musk’s
second generation of electric vehicles, the Model S. Tesla
delivered approximately 2,650 Model S vehi-
cles in 2012, just a little over half of what it projected, but it
planned to deliver an additional 21,000 by
the end of 2013.98 Buyers have the option to purchase a model
with either a 230-mile or 300-mile battery
capacity. The 230-mile edition sells for $63,570 (which
includes a $7,500 tax credit), and the 300-mile
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16
42. Tesla Motors, Inc.
model sells for $73,570 (including the tax credit). In addition,
Tesla offers the Model S Performance edi-
tion with a 300-mile range that boasts additional upgrades to the
interior, suspension, and wheels. The
Performance edition is priced at $83,570 (including the tax
credit). Exhibit 7 shows the specifications
for all three models. While the Model S costs less than the
Roadster did, all three versions still retail at
a premium compared to current electric vehicles, such as the
Nissan Leaf.
Critics are sceptical that Tesla can get its prices down to a
competitive level, produce the Model S on
time, and have it perform as promised. Moreover, due to the
relatively low price of gas in the United
States compared to Europe, where the price of a gallon of
regular gas hovers around $10, the economic
incentive to buy and maintain an electric vehicle is not there at
this point. Plans for Tesla’s launch of its
Model X SUV and additional models to more regular buyers
planned for 2014 have been delayed until
late 2015. It remains to be seen whether Tesla can deliver
electric cars at a price point and with features
that appeal to a mass market.99
Manufacturing Challenges
Tesla Motors’ original production at the former NUMMI plant
started with five Model S vehicles
manufactured per month, but has climbed in a year’s time to 500
vehicles produced per month. Musk
intends to eventually reach the NUMMI plant’s 500-million
production capacity. The discontinuation
43. of the Roadster and the low-end version of the Model S help
with increasing production capacity.
Adding additional models to the production line potentially
increases the complexity of manufactur-
ing and managing demand for different vehicle models.
Musk’s current manufacturing challenge is to reduce the cost to
produce a vehicle. According to the
Nielsen report mentioned earlier, many buyers are interested in
all-electric vehicles but are much more
price sensitive than they are willing to buy into the new
technology. One option on the table is to move
some manufacturing overseas closer to new markets and where
labor costs are lower. These facilities
could also serve to grow capacity and provide a means to
expand into other global markets such as
Asia and Europe.100 Another plan to reduce costs is to share a
few common parts with other manufac-
turers instead of building their own tooling for their own
custom parts.101
Another manufacturing challenge facing Musk is how to
maintain the high-quality standard cited
in Consumer Reports’ glowing review of the Model S and its
sterling reputation as Motor Trend’s 2013
Car of the Year. With increased production rates and the
introduction of another product line, Tesla
must carefully design and implement new facilities and
processes that will meet the standards set by
the 2012 Model S. This is a very real threat to Tesla’s brand, as
early adopters suffered a few software
glitches that kept the door handles, which retract into the body
when not being used, from becoming
accessible when the owner wanted to get into the car. While the
early adopters were willing to tolerate
these types of glitches, the mass market would be much less
44. sympathetic.
Tesla Motors: Strategic Choices
Despite progress over the last several years, Tesla still faces a
serious laundry list of problems.
Consumers are still reluctant to invest in all-electric cars,
especially with so many other alternative
technologies vying for market dominance. The infrastructure is
not yet ready to support widespread
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Tesla Motors, Inc.
17
use of electric vehicles, so buying one can come with
significant inconvenience. No all-electric car has
proven to be even a quasi-standard, with the result that any
investment in an electric vehicle could
backfire in the long term. Also, not enough models are available
to enable consumers to make an edu-
cated selection, especially compared to the number of hybrid
vehicles available.
Meanwhile, the gasoline-powered car industry keeps chugging
along. The 2009 Car Allowance
Rebate System (CARS) program (commonly referred to as
“Cash for Clunkers”) announced by the U.S.
45. government in 2009 did not exactly help reduce sales of
traditional gas-powered vehicles. According
to the U.S. Department of Transportation, about 700,000 cars
were exchanged for newer, more fuel-
efficient models, which will remain on the roads for the next 10
to 15 years.102
In early 2013, Tesla also had to deal with two negative news
articles about the Model S in The New
York Times. The first article detailed the experience of a father-
and-son team in Florida who, in the
hopes of winning a Tesla-sponsored contest, attempted to be the
first to drive the Model S at least 400
miles on a single charge. The team was able to drive the vehicle
423.5 miles, but it took them 17 hours
at an average speed of approximately 25 mph to do so.103 The
second article recounted the journey
of staff writer John M. Broder as he drove the Model S from
Washington, D.C., to two of Tesla’s new
charging stations in Newark, Delaware, and Milford,
Connecticut, in January 2012. The two stations are
approximately 200 miles apart, well within the 300-mile single-
charge range of the Model S as stated
by Tesla. However, Broder’s trip did not go as planned. As the
car’s battery power fell faster than the
miles accrued, Broder was forced to turn off the heat despite the
winter day’s low temperature, set the
cruise at 54 mph on a 65-mph highway, and eventually call a
tow truck when the car lost power before
reaching the next charging station.104
In response to Broder’s article, Musk released data logs from
the car Broder drove that contradicted
his tale, leading to a back and forth that ended in a stalemate.
Regardless of the veracity of the article’s
claims, the negative publicity presented yet another challenge
46. for Tesla. Musk claimed that the nega-
tive review potentially cost the company $100 million in lost
revenue and stock value and hundreds of
cancellations for the Model S.105 ,106 ,107
On top of production delays on new models, increased
competition, and problems in China, Elon
Musk now has to face lower gasoline prices following large
investments in battery manufacturing.
Further, he is not only running Tesla Motors on a daily basis,
but also has high-level responsibilities at
SpaceX and SolarCity. Critics of Musk allege that he is spread
too thin and cannot continue to run three
companies at once. Although there is no doubt Musk is a great
visionary, engineer, and entrepreneur,
is he also a great CEO? A reputation for starting a business and
then selling it off (e.g., PayPal sold to
eBay) precedes him, but he wants to silence critics. While
sipping his coffee and reviewing the chal-
lenges facing Tesla, Musk debates how to address multiple
questions.
Will Tesla be able to make the transition to higher production
volumes in a relatively short time
frame? Larger automakers have a significant competitive
advantage: they have the financial and tech-
nological resources to produce automobiles at a much lower
cost and get them to the market and
customer more quickly. Can Tesla compete with the largest
carmakers in the United States (GM, Ford,
Chrysler, Toyota, and Honda) and disrupt their dominance with
an electric vehicle? Musk also wor-
ries about Nissan CEO Carlos Ghosn’s strong push toward low-
cost electric vehicles. Will the gamble
of making Tesla’s patents open source and investing in lithium-
ion batteries pay off? Finally, how can
47. Tesla hold off new competitors for high-price electric cars as it
simultaneously enters the market for
lower-price electric cars with other firms?
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Tesla Motors, Inc.
EXHIBIT 1 Tesla Financial Data ($ millions, except EPS data)
Source: Compustat.
Fiscal Year 2010 2011 2012 2013 2014
Cash and short-term investments 173.155 303.803 220.984
848.901 1923.660
Receivables (total) 6.71 9.539 26.842 49.109 226.604
Inventories (total) 45.182 50.082 268.504 340.355 953.675
Property, plant, and equipment-total (net) 122.599 310.171
562.3 1120.919 2596.011
Depreciation, depletion, and
amortization (accumulated) 22.393 34.222 60.843 159.642
307.25
48. Assets (total) 386.082 713.448 1114.19 2416.93 5849.251
Accounts payable (trade) 28.951 56.141 303.382 303.969
777.946
Long-term debt 72.324 271.165 411.46 598.974 1818.785
Liabilities (total) 179.034 489.403 989.49 1749.81 4879.345
Stockholders’ equity (total) 207.048 224.045 124.7 667.12
911.710
Sales (net) 116.744 204.242 413.256 2013.496 3198.356
Cost of goods sold 75.39 125.728 354.364 1451.151 2200
Selling, general, and administrative expense 177.569 313.083
424.35 517.545 1068.360
Income taxes 0.173 0.489 0.136 2.588 9.404
Income before extraordinary items -154.328 -254.411 -396.213 -
74.014 -294.040
Net income (loss) -154.328 -254.411 -396.213 -74.014 -294.040
Earnings per share (basic)
excluding extraordinary items -1.66 -2.53 -3.69 -0.62 -2.36
Earnings per share (diluted)
excluding extraordinary items -1.66 -2.53 -3.69 -0.62 -2.36
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Tesla Motors, Inc.
19
197.32
325.00
275.00
225.00
175.00
125.00
75.00
25.00
2011 2012 2013 2014 2015
TSLA Price Mar 2 ‘15 197.32
Dow Jones Industrials Level Mar 2 ‘15 18288.63
19833.34
16500.00
14833.33
13166.67
50. 11500.00
9833.33
18288.63
EXHIBIT 2 Tesla Motors’ Stock Performance since Initial
Public Offering (01/29/10) vs.
Dow Jones Industrial
Source: Publicly available data displayed using YCHARTS,
http://ycharts.com.
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20
Tesla Motors, Inc.
Honda
Ford
GM
Toyota
FCA
Nissan
52. 22.58
14.16
9.10
4.22
6.51
1.37
0.97
EXHIBIT 3 U.S. Market Share: The Big Three vs. “Others,”
2000–2014
Source: Ward’s Auto U.S. Total Vehicle Sales Market Share by
Company, 1961–2014. Market share expressed in percent. The
Big
Three are depicted with solid lines. The rise of Japanese OEM
market share is evident over the last decade.
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Tesla Motors, Inc.
21
EXHIBIT 4 U.S. Average Retail Price of Gallon of Gasoline in
53. the United States,
January 2001–March 2015
Source:
http://www.eia.gov/oil_gas/petroleum/data_publications/wrgp/m
ogas_history.html. Prices are quoted every
two weeks.
$4.5
$4.0
$3.5
$3.0
$2.5
$2.0
$1.5
$1.0
$0.5
$0.0
2000 2005 2010 2015
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54. 22
Tesla Motors, Inc.
EXHIBIT 5 Sales of Battery Electric Vehicles in the United
States, 2010–2014
Source:
http://electricdrive.org/index.php?ht=d%2Fsp%2Fi%2F20952%2
Fpid%2F20952.
8000
7000
6000
5000
4000
3000
2000
1000
0
2010 2011 2012 2013 2014
Jan Apr Jul Oct Jan Apr Jul Oct Jan Apr Jul Oct Jan Apr Jul Oct
Jan Apr Jul Oct
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23
EXHIBIT 6 Tesla’s Expanding Supercharger Networks
United States, March 2015
United States, 2016
Source: http://www.teslamotors.com/supercharger.
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Tesla Motors, Inc.
60kWh 85kWh 85 kWhD P85 kWhD
Est. Range at 55 mph 208 miles 265 miles 270 miles 253 miles
56. 0 to 60 mph 5.9 seconds 5.4 seconds 5.2 seconds 3.2 seconds
Top Speed 120 mph 125 mph 155 mph 155 mph
Peak Motor Power 380 hp 380 hp 376 hp 691 hp
Energy Storage 60kWh 85 kWh 85 kWh 85 kWh
Battery Warranty 8 years, 125,000 miles 8 years, unlimited 8
years, unlimited 8 years, unlimited
Supercharging Optional Included Included Included
Enters Production In production In production In production In
production
EXHIBIT 7 Specifications for Model S Editions
Source: http://www.teslamotors.com/models.
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25
Endnotes
1 Zumbrun, J. (2014), “Americans Getting Pumped for the
Holidays, The Wall Street Journal: 22 December.
57. 2 Malone, M. (2009), “Uber Entrepreneur: An Evening with
Elon Musk,” Fora, April 7, http://bit.ly/R4PHZg.
3 Fowler, G. (2013), “Being Elon Musk, Tony Stark of SXSW,”
The Wall Street Journal Digits, March 9, http://
on.wsj.com/161hD1P.
4 Belfiore, M. (2007), “Chapter 7: Orbit on a Shoestring,”
Rocketeers (New York: HarperCollins), pp. 166–195.
5 This case draws on: Davis, J. (2009), “How Elon Musk
Turned Tesla into the Car Company of the Future,”
Wired Magazine, September 27, http://bit.ly/18X7gPP; and
Malone, M. (2009), “Uber entrepreneur: An evening
with Elon Musk.”
6 Elon Musk, “USA Science & Engineering Festival,”
http://www.usasciencefestival.org/schoolprograms/2014-
role-models-in-science-engineering/1260-elon.html.
7 http://cleantechnica.com/2015/03/11/solarcity-vivint-take-
top-spots-us-residential-solar-installers-2014/
8 http://www.floridatoday.com/story/news/local/2015/03/10/
boeing-spacex-look-beyond-nasa-space-customers/24724977/
9 Malone, M. (2009), “Uber Entrepreneur: An Evening with
Elon Musk”; and Davis, J. (2010), “How Elon Musk
turned Tesla into the car company of the future.”
10 Page, L. (2009), “Musk Hits Out at Co-Founder’s Tesla
Roadster Allegations,” The Register, June 23, http://bit.
ly/17wcKBU.
11 Zinsli, C. (2010), “Tesla Mounts New Defense of Elon
58. Musk’s Travel: IPO Savings,” The Wall Street Journal,
May 27, http://on.wsj.com/16kW8ep.
12 “SEC 10-K Filing,” Tesla Motors, Inc., December 31, 2012,
http://1.usa.gov/ZA9pOV.
13 “Second Quarter 2012 Shareholder Letter,” Tesla Motors,
Inc., July 25, 2012, http://bit.ly/167Hvx2.
14 Vance, A. (2013), “Why Everybody Loves Tesla,”
Bloomberg Businessweek, July 18, http://buswk.co/19rt3js.
15 Musk, E., and J. B. Straubel (2012), “Model S Efficiency
and Range,” Tesla Blog, May 9, http://bit.
ly/18iWcQG.
16 Motavalli, J. (2012), “Father and Son Drive 423 Miles on
One Charge in Tesla Model S,” The New York Times,
December 12.
17 Vance, A. (2013), “Why Everybody Loves Tesla.”
18 Tesla Motors, http://www.teslamotors.com.
19 “2013 Motor Trend Car of the Year: Tesla Model S,” Motor
Trend, http://bit.ly/U8vlhs.
20 http://blog.caranddriver.com/not-a-shocker-tesla-pushes-
back-model-x-crossover-to-late-2015/.
21 Chowdhry, A. (2014), “Tesla Motors Officially Confirms
Model 3 Electric Vehicles Will Go on Sale in 2017,”
Forbes, July 16.
22 “Tesla Posts Second Biggest Rally for 2012 US IPO,”
Bloomberg Businessweek, http://bit.ly/17wcKBU.
59. 23 “SEC 10-K Filing,” Tesla Motors, Inc., March 3, 2010,
http://1.usa.gov/16oOdiE.
24 Jakab, S. (2015). “Telsa Growth is a Matter of Survival,”
The Wall Street Journal: 11 February, p. C1.
For the exclusive use of H. KASSA, 2018.
This document is authorized for use only by HAIMANOT
KASSA in FA18-MGT362-Strategy-1-1 taught by LY PHAM,
Golden Gate University from Aug 2018 to Dec 2018.
26
Tesla Motors, Inc.
25 Wardsauto.com key automotive data, retrieved October 29,
2010.
26 Zumbrun, J. (2014), “Americans Getting Pumped for the
Holidays, The Wall Street Journal: 22 December.
27 “Obama’s Car Puzzle,” The Wall Street Journal, November
12, 2008.
28 Woodyard, C. (2013) “GM Bailout Played Out over Five
Years,” USA Today: http://www.usatoday.com/
story/money/cars/2013/12/09/gm-bailout-timeline/3929953/.
29 Higgins, T., Katz, I., Klimasinska, K. (2013) “GM Bailout
Ends as U.S. Sells Last of ‘Government
Motors,’” BloombergBusiness:
http://www.bloomberg.com/news/articles/2013-12-09/
60. gm-bailout-ends-as-u-s-sells-last-of-government-motors-.
30 Newsday: http://www.newsday.com/classifieds/cars/
gm-ignition-switches-takata-air-bags-lead-to-record-number-of-
recalls-in-2014-1.9932627.
31 Keegan, M. C. (2009), “DaimlerChrysler: Merger or
Acquisition?” October 31,http://bit.ly/1GB4DWn.
32 Surowiecki, J. (1998), “The Daimler-Chrysler Collision,”
Slate, May 15, http://www.slate.com/id/2654/.
33 Merced, M. J. (2009), “Judge Clears Way for Sale of
Chrysler to Fiat,” The New York Times, June 1, http://nyti.
ms/161i0cQ.
34 “Chrysler Bankruptcy Filing,” The New York Times, April
20, 2009, http://nyti.ms/15oJpdf.
35 Reuters: http://www.cnbc.com/id/102081712
36 Stoll, J. D., M. Dolan, J. McCracken, and J. Mitchell
(2008), “Big Three Seek $34 Billion Aid,” The Wall Street
Journal, December 3, http://on.wsj.com/17TB41f.
37 CBS News: http://www.cbsnews.com/news/ford-regains-
assets-including-blue-logo-after-credit-upgrade/.
38 Ramsey, M. (2012), “Ford Results Show Power of U.S.
Operations,” The Wall Street Journal, October 30, 2012,
http://on.wsj.com/PEq7KY.
39 http://www.bidnessetc.com/36538-ford-motor-company-to-
manufacture-ecoboost-engines-at-cleveland/.
http://www.ibtimes.com/electric-car-rumor-ford-motor-
61. company-weighs-electric-vehicle-rival-chevrolet-
bolt-1837302.
40 Ramsey, M. (2012), “U.S. November Auto Sales Rise,” The
Wall Street Journal, December 3, http://on.wsj.com/
RwiYNB.
41 “Bright Sparks. Electric Propulsion Provides Some
Excitement Amid the Gloom,” The Economist, January 15,
2009, http://econ.st/162Y4q0.
42 “BYD Zooms Past Toyota, GM in Electric Car Race,” China
Daily, December 16, 2008, http://en.people.
cn/90001/6554270.html.
43 Edwards, A. (2014) ‘BYD Motors delivers its first two
California-built electric busses to Antelope
Valley Transit, Press-Telegram:
http://www.presstelegram.com/environment-and-
nature/20140428/
byd-motors-delivers-its-first-two-california-built-electric-buses-
to-antelope-valley-transit.
44 http://www.goodcarbadcar.net/2013/03/usa-february-2013-
auto-sales-brand-rankings.html.
45 Boston, W. (2015). “Germany’s Volkswagen Posts Rise in
2014 Profit,” The Wall Street Journal: http://www.
wsj.com/articles/germanys-volkswagen-posts-rise-in-2014-
profit-1425052616.
46 National Highway Traffic Safety Administration,
http://www.nhtsa.dot.gov.
For the exclusive use of H. KASSA, 2018.
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KASSA in FA18-MGT362-Strategy-1-1 taught by LY PHAM,
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Tesla Motors, Inc.
27
47 California Air Resource Board, http://bit.ly/1esdwWR.
48 Motor Trend, June 2008.
49 Naughton, K., and A. Sloan (2007), “Comin’ Through!”
Newsweek, March 13.
50 Smith, R., and D. Clark (2008), “Ex-Chief Says Intel Should
Power Cars,” The Wall Street Journal, December 12.
51 Elkind, P. (2014) “Tesla Closes on free Nevada Land for
Gigafactory,” Fortune: http://fortune.
com/2014/10/28/tesla-closes-on-free-nevada-land-for-
gigafactory/.
52 The Wall Street Journal: http://www.wsj.com/articles/
tesla-confirms-nevada-to-get-battery-factory-1409871734.
53 Musk, E. (2014) “All Our Patent Belong to You,” Tesla:
http://www.teslamotors.com/blog/
all-our-patent-are-belong-you.
54 http://knowledge.wharton.upenn.edu/article/whats-driving-
teslas-open-source-gambit/.
55 Smith, R., and D. Clark (2008), “Ex-Chief Says Intel Should
63. Power Cars,” The Wall Street Journal, December 12.
56 Krolicki, K. (2009), “Chrysler Dismantles Electric Car
Plans Under Fiat,” Reuters, November 6.
57 Fuel Economy, http://www.fueleconomy.gov.
58 The Economist. 2015. “Upsetting the Apple Car,” February
21, pp. 61–62.
59 “Nissan Leaf,” Nissan, http://www.nissanusa.com/electric-
cars/leaf/.
60 Vance, A. (2013), “Why Everybody Loves Tesla.”
61 Berman, B., “Venturi Fetish,” Hybrid Cars,
http://bit.ly/1esf1Ex.
62
http://www.autonews.com/article/20150103/OEM06/301059928/
where-is-googles-car-going?
63 Wakabayahshi, D, and Ramsey, M. 2015. “Apple Secretly
Gears Up to Create Car,” The Wall Street Journal,
February 14, p. A1.
64 Malone, M. (2009), “Uber Entrepreneur: An Evening with
Elon Musk.”
65 Dawson, C. (2012), “Toyota Details Broader Hybrid
Lineup,” The Wall Street Journal, September 24.
66 “Hybrid Cars,” Motor Trend, http://bit.ly/15XPJLe.
67 Corkery, M. (2010), “The Great IPO Race: Tesla vs. GM,”
The Wall Street Journal, January 29, http://on.wsj.
64. com/1beFKCd.
68 http://nlpc.org/stories/2014/08/07/chevy-volt-resale-values-
plunge-lease-returns-hit-market.
69 Terlep, S. (2012), “Fisker Hires Investment Bank to Help
Raise Funds,” The Wall Street Journal, December 7.
70 Vance, A. (2013), “Why Everybody Loves Tesla.”
71 http://www.digitaltrends.com/cars/fisker-karma-to-be-
rebranded-as-elux-report-says/.
72 http://wallstcheatsheet.com/automobiles/was-the-cadillac-
elr-the-electric-vehicle-flop-of-2014.
html/?a=viewall.
73 Mitchell, D. (2008), “A Note on Rising Food Prices,” World
Bank–Development Economics Group (DEC), July 1,
World Bank Policy Research Working Paper No. 4682.
For the exclusive use of H. KASSA, 2018.
This document is authorized for use only by HAIMANOT
KASSA in FA18-MGT362-Strategy-1-1 taught by LY PHAM,
Golden Gate University from Aug 2018 to Dec 2018.
28
Tesla Motors, Inc.
74 Ridley, M. (2010), “The Rational Optimist: How Prosperity
Evolves,” Harper.
65. 75 “Hydrogen Vehicles Won’t Be Viable Soon, Study Says,”
MIT Tech Talk, March 3, 2003.
76 Takahashi, Y., and J. Bennett (2013), “GM, Honda Team Up
on Fuel-Cell Technology; Auto Makers to
Collaborate on Fuel-Cell Vehicle Systems,” The Wall Street
Journal, July 2, http://on.wsj.com/15Gax9M.
77 Ramsey, M. (2014) “Debuting: $57,000 Fuel-Cell Toyota,”
The Wall Street Journal: November 19, p. B1.
78 Friedman, T. L. (2009), Hot, Flat, and Crowded: Why We
Need a Green Revolution—And How It Can Renew
America, 1st ed. (New York: Farrar, Straus and Giroux).
79 62 . Schwartz, Nelson D. (2010), “Sites to Refuel Electric
Cars Gain a Big Dose of Funds,” The New York Times,
January 25, http://nyti.ms/162YhcE.
80 “Deutsche Bank: Project Better Place Has ‘the Potential to
Eliminate the Gasoline Engine,’” Cleantech Investing
in Israel, April 15, 2008, http://cleantech-
israel.blogspot.com/2008/04/deutsche-bank-project-better-
place-has.
html..
81 Patel, Y. (2013), “Israel’s Better Place Seeks Creditor
Protection in U.S. Court,” Dow Jones News Service, July 22.
82 Lavrinc, D. (2012), “Tesla Locks Other EVs Out of Its
‘Supercharger’ Walled Garden,” Wired, September 25,
http://bit.ly/16qIOaH.
83 Vance, A. (2013), “Gone in 90 Seconds: Tesla’s Battery-
Swapping Magic,” Bloomberg Businessweek, June 20,
http://buswk.co/157ZkMK.
66. 84 Squatriglia, C. (2005), “Share in Tesla Electrifies the
Teutons,” Wired, May, http://bit.ly/18249G9.
85 Davis, J. (2010), “How Elon Musk Turned Tesla Into the
Car Company of the Future,” Wired, September,
http://bit.ly/18X7gPP.
86 Howell, D. (2012), “Tesla Motors Rises on Q4 Revenue,
Wider Daimler Deal,” Investors Business Daily,
February 15, http://bit.ly/1esW44F.
87 Ramsey, M., J. B. White (2014), “Daimler Sells Its 4%
Stake in Tesla,” The Wall Street Journal, October 21.
88 Muller, J. (2013), “What Do Toyota and Mercedes See in
Tesla? A bit of Themselves,” Forbes, June 1, http://
onforb.es/1gbwSuQ.
89 “Tesla Notifies SEC of Agreement with Toyota to Develop
Electric Version of RAV4,” Tesla Motors, October 13,
http://bit.ly/1eaaB3U.
90 White, J. B. (2014), “Toyota Confirms Sale of Part of Tesla
Stake,” The Wall Street Journal, October 24.
91 “Panasonic Invests $30 Million in Tesla: Companies
Strengthen Collaborative Relationship,” Tesla Motors,
November 3, 2010, http://bit.ly/162ZJfp.
92 http://www.teslamotors.com/findus - /bounds/42.076253,-
93.5542299,41.975428,-93.69852300000002,d?sear
ch=store.
93
http://www.nytimes.com/2015/02/11/business/international/tesla
67. -seeks-a-stronger-foothold-in-china.
html?_r=0.
94 http://www.bloomberg.com/news/articles/2014-03-10/tesla-
s-direct-sales-push-raises-auto-dealers-hackles.
95 “Tesla Motors 2010 Annual Report,” Tesla Motors,
http://bit.ly/162ZssS.
96 http://www.teslamotors.com/blog/significantly-improved-
leasing-tesla-us-bank.
For the exclusive use of H. KASSA, 2018.
This document is authorized for use only by HAIMANOT
KASSA in FA18-MGT362-Strategy-1-1 taught by LY PHAM,
Golden Gate University from Aug 2018 to Dec 2018.
Tesla Motors, Inc.
29
97 Reed, J. (2010), “Buyers Loath to Pay More for Electric
Cars,” The Financial Times, September 19, http://on.ft.
com/1K4UfKq
98 “Second Quarter 2012 Shareholder Letter,” Tesla Motors.
99 Vance, A. (2013), “Why Everybody Loves Tesla.”
100 Ohnsman, A. (2013), “Tesla CEO Weighs Europe, Asia
Plants for Mass-Market Car,” Bloomberg Businessweek,
August 21, http://bloom.bg/14RQnUa.
68. 101 Vance, A. (2013), “Why Everybody Loves Tesla.”
102 Information accessed at Department of Transportation,
http://1.usa.gov/1825cWD.
103 Power S., J. Mitchell, and M. Dolan (2009), “Ford, Nissan
Among First to Tap Loans for Retooling,” The Wall
Street Journal, June 23, http://on.wsj.com/1bfdtvl.
104 Bernard, S., and J. Soble (2010), “Ford, Nissan and Tesla
Win Green Loans,” Financial Times, June 24, http://
on.ft.com/1RmyioS.
105 Motavalli, J. (2012), “Father and Son Drive 423 Miles on
One Charge in Tesla Model S.”
106 Broder, J. (2013), “Stalled Out on Tesla’s Electric
Highway,” The New York Times, February 8, http://nyti.
ms/18cfLEd.
107 Muller, J. (2103), “Elon Musk: Bad Review in New York
Times Cost Tesla $100 Million,” Forbes, February 26,
http://onforb.es/18cfz8b.
For the exclusive use of H. KASSA, 2018.
This document is authorized for use only by HAIMANOT
KASSA in FA18-MGT362-Strategy-1-1 taught by LY PHAM,
Golden Gate University from Aug 2018 to Dec 2018.
One-Page Memo
What you need to do to complete this assignment:
We are using the same case for both the Discussion Question
and the one-page memo. Make sure to answer and review the
DQs first before completing the following two questions for the
69. one page memo.
Develop a one-page memo (500 words maximum, excluding the
title, reference pages and appendices.) to answer these
questions:
1. To what extent is WM’s competitive advantage sustainable?
Why have other retailers had limited success in imitating WM’s
strategy and duplicating its competitive advantage?
2. Looking ahead, what measures does WM need to take to
sustain its recent performance and defend against competitive
(and other) threats?
When it is due and where to submit:
Submit your one-page memo by 11pm of day 7 or sooner, here.
How to format your document:
· You don't need a title page in APA6th. Simply use the same
headings as in a typical memo or email: Date, To, From,
Subject.
· Use AP6th to cite all references
· Format document using Single spaced
· Use 11-point font Arial, single space one page NOTE: Your
one page memos should be approximately
· 500-words in length, excluding the title section (i.e., the first
five line of this memo), the
· reference page and appendices.
· Have a maximum of three attachments
· Name your MS Word filename in this format: FirstLast-
CaseName.docx. For example: JonDoa-Walmart.doc. This will
help avoiding duplicating names when I download the
submissions. Thank you!
· Your submitted paper must be in Microsoft Word format.
· The memos are to be
· 1) a maximum of one page in length,
· 2) single spaced, and
· 3) in Arial, 11-point font. You are allowed to include up to
three appendices to present the facts
· arranged in a table format or chart. NOTE: Your one page
memos should be approximately
70. · 500-words in length, excluding the title section (i.e., the first
five line of this memo), the
· reference page and appendices.
How your paper will be evaluated:
· Please review the enclosed rubric for this one-page memo for
your convenience (it is the same document posted under 'Course
documents')
To: Management 362 Participants
From: Jone Do
Subject: One-page memo paper instructions, case analysis
guide, and rubric
Expressing your ideas clearly can make a difference between
having your ideas accepted or
rejected. How well you express your ideas in your writing
assignments will also affect the
outcome of your grade and success in this course. In the
business world, complex ideas
must be presented quickly in a clear and concise manner, often
in the form of a one-page
memo, or an email. Important decisions are made often through
these one-page memos
which may be shared with others as part of the decision making
process. To make your
memo stand out, you need to present your case concisely and
supported by facts and not
opinions.
Evaluation criterion (see rubric below) are as follows:
1) Content: You have described what tools should be used to
71. identified the key issues,
cited three benchmark companies that face similar issues, and
related your discussions to
the reading materials of the week. This is worth 10% out of
100% scale.
2) Analysis and critical thinking: You have identified and
prioritized key issues for firms to
focus and answered all assignment questions. Your key issues
are correctly identified as
root causes and not symptoms of something deeper. You have
stated your position and
recommendations clearly. Your recommendations and arguments
are supported by facts, not
just opinions. You make your assumptions explicit. This is
worth 80% out of 100% scale.
3) Clarity and presentation: Your writing is clear and concise,
free from spelling and
grammatical errors. Your topic sentences logically follow the
objective and cite references
using the correct APA format. Your entire memo looks
professional and follows the format
provided as illustrated by this memo. This is worth 10% out of
100% scale.
The memos are to be
1) a maximum of one page in length,
2) single spaced, and
3) in Arial, 11-point font. You are allowed to include up to
three appendices to present the facts
arranged in a table format or chart. NOTE: Your one page
memos should be approximately
500-words in length, excluding the title section (i.e., the first
five line of this memo), the
reference page and appendices.
72. All memos will be submitted via Dropbox by the due dates. Late
memos are accepted, but
subject to penalty. We will be discussing some of the cases in
class, and if you wish to refer to
your memo during the class discussion, you will need to include
it in your post.
Writing is a painful process, but if you are serious about a
successful career in business, it is
vital that you master the ability to write clearly. This course
requirement is designed to help.
CASE ANALYSIS GUIDE
I. Why we study using cases
• Develop your critical thinking skills, including analytical and
judgmental skills.
• Learn how to ask and identify the right questions based on the
facts cited in the
case.
• Develop insights through managerial situations in other real
life firms.
• Enhance oral and written communications skills.
II. What to expect in a case.
• The critical issues are often not explicitly identified
o You need to identify them!
• Sometimes, the information can be ambiguous, contradictory,
redundant or
irrelevant.
o You need to sort through them to identify the critical issues.
• There is no unique or right answer.
o Don’t assume that there is only RIGHT answer.
III. How to approach a case.
• Read the case through quickly to get a general feel for what
the case is about and
what information is given.
o You should be able to give a 1-3 lines to summarize the case,
as if somebody
asks you at a cocktail party “what is this case about?”
73. • Start identifying primary and secondary questions to hone in
the one or two KEY
questions of the case:
o Reread the case carefully, noting the key facts and important
information.
o Develop a sense of the important issues and basic problems.
o Decide what issues must be resolved and provide answers to
them. Use and
analyze the data and information in the case.
• Develop a set of recommendations that are supported by your
analysis. Evaluate
and reject alternate courses of action based upon your analysis.
Address
implementation issues.
o Consider: goal consistency, strategic relevance, organizational
capability,
political feasibility as you develop your recommendations.
o Again, don’t assume that there is only one RIGHT answer.
What is important is
that your recommendations are consistent with your perceived
problems and that
you can defend your positions using facts from the case and not
just opinions. I
am looking for your rationale and how you connect the dots
(facts) together.
IV. How to participate in a Class case discussion:
• Take a stand on the assigned issues.
• Keep an open mind.
• Bring in your outside experience, previous cases, text
material, outside reading, and
outside research (similar problems in today’s environment)
• Be concise and to the point.
• Don't be shy.
• Learn from other students.
V. How to write a case analysis - suggestions:
• Don't start writing until you have completed your analysis. If
74. you need to use a tool
or a framework to analyze the situation then actually conduct it.
For example, don’t
just say that ‘we should do a Five Force analysis to…” you need
to go ahead and
actually conduct a Five Forces Analysis. Attach your analyses
as appendices.
• Study the results of the analysis and ask ‘what is the
implication of these results” –
don’t just report the findings without discussing the
implications. Focus your
discussion on the implications and how they lead you to certain
recommendations.
• Take a stand on the assigned issues.
• Address the assigned issues. Organize your paper to give the
most words to
discuss the key questions or recommendations. Use the answers
of supporting
questions to help craft your rationale for your recommendations
or arguments.
• Avoid extensive restatement of the case material. NO book
report!
• Make judicious use of tables and graphs as appendixes.
• Eliminate spelling and grammatical errors.