Sample Action Research Report 1
Effect of Technology on Enthusiasm for Learning Science
Jane L. Hollis
Lake City Middle School
Lake City, Florida
ABSTRACT
The effect of technology on students’ enthusiasm for learning science (both at school and
away from school) was investigated. Pre- and post-student and parent surveys, student and
parent written comments, and teacher observations were used to record changes in enthusi-
asm for learning science during a six-week study period.
In this study, I investigated how the integration of technology into my middle school
science curriculum would impact my students’ enthusiasm for learning science. Enthusiasm
for learning science can be defined as the students’ eagerness to participate in science activi-
ties in the classroom, as well as away from school. My motivation for focusing on technol-
ogy was twofold. First, I have had an interest in integrating technology into my students’
studies of science for some time. Secondly, the funding for technological equipment and
software recently became available. During the 1993–1994 school year, my school was
awarded a $115,000 incentive grant to purchase equipment and software and to train
teachers in the use of this software and technological equipment. One of the stipulations of
the grant was that the equipment and software must be for student use.
According to Calvert (1994), American education is a system searching for solutions.
Our children drop out, fail to sustain interest in learning, and perform below capacity. Some
have argued that television is the culprit. Others have argued that computers may be the
answer.
Today’s middle school students have grown up in a technological world with television,
electronic toys, video games, VCRs, cellular phones, and more. They are accustomed to
receiving and processing information through multi-sensory sources.
I wanted to bring technology into my classroom and incorporate it into my science
curriculum using multimedia computer presentations. Barbara ten Brink (1993) noted, “. . .
students look to us [teachers] to prepare them for an increasingly technological world.
Fortunately, with videodiscs, we are meeting the challenge by delivering curriculums in
ways that engage, motivate, and thrill our students.” In this study my students had an
opportunity to use assorted multimedia technology as they explored a segment of a middle
school science curriculum.
THEORETICAL FRAMEWORKS
Learning is an extremely complex human process. During my twenty-four years of teaching
I have used many strategies to enhance student learning and to teach new concepts. I am still
not convinced that I thoroughly understand how children learn. Yet, at this point, I do
believe children learn through experiences. They build on past experiences and previous
knowledge to process new concepts. As children redefine old understandings of concepts
and integrate new experiences into thei.
Dynamic Learning Program for Millennial Learnersijtsrd
This research determined the effectiveness of Dynamic Learning Program for the six science process skills of our Grade 9 millennial learners of Soom Integrated School, Trinidad, Bohol, Philippines. These six science process skills are observing, communicating, classifying, inferring, measuring and predicting. Fifty three students were the respondents of the study and quasi experimental method was used. To determine the significant mean difference, z test was used. The target topics of the experiment were the three modules of the third grading period Volcanoes, Climate and Constellation. Findings revealed that Dynamic Learning Program helped students obtain higher academic performance in science, thus the six science process skills were enhanced and developed. Post test data rejected the null hypothesis there was a significant difference between the pre test and post test scores of the student. An enriched Dynamic Learning Program was designed to address the issue on low performance in science subject. Jenny P. Manatad "Dynamic Learning Program for Millennial Learners" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-5 , August 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31740.pdf Paper Url :https://www.ijtsrd.com/humanities-and-the-arts/education/31740/dynamic-learning-program-for-millennial-learners/jenny-p-manatad
Running head Research Implementation Plan7October 28In.docxjoellemurphey
Running head: Research Implementation Plan
7
October 28
In 1-2 paragraphs, describe your current research question or thesis statement, and how it is relevant to your educational setting.
My current research question involves motivation of students through technology. I want to know if technology 1) increases the motivation for math students in their desire to learn and 2) if they perform better academically with technology integrated into the curriculum. It seems that the first part of my research will be subjective and the second part objective. In my head they blend together nicely as proof-through-research of the advantages (or not) of utilizing technology in teaching mathematics. I have reasons for wanting to gain data on this. Primarily, I believe that the lives of our 21st century students will be inundated with technology for practical use. No longer will technology be used for social networking or game playing. Instead, I anticipate that the future holds uses for technology in business which we currently cannot imagine. The students in my classroom already think in terms of how to use technology not only for simple research, but also in presentations and demonstrations of their knowledge. I know that even at the kindergarten level, the use of computers is becoming more and more popular since set-up time is immediate, colors and shapes are perfect and educational games can be played by two (for a nice interpersonal approach).
A concern about measuring the improved academic performance is that we are using new world technology up against old school testing. I am going to be looking for situations where technology is being used above and beyond arithmetic answers to see how it is being perceived as assisting in the theory and application of mathematics, rather than just doing the mechanics. I am well aware of the standardized tests that my students will face, and that they are not designed for technology assistance. Perhaps I am looking at the next wave of educational improvement. The pendulum swings slowly in education. Preparing my students for their 21st century lives and at the same time preparing them to pass a standardized test from my 20th century life is the challenge I face in my classroom. Through research (with positive results), I like to think that I will be a step ahead when the day comes and technology is properly insinuated into the math curriculum.
November 1
My topic of research is: Are students better motivated and do they perform better academically when allowed to learn mathematics through the use of technology.
1. Developing and Validating a Reliable TPACK Instrument for Secondary Mathematics Preservice Teachers
J. Zelkowski, J. Gleason, D. C. Cox, & S. Bismarck
Vocabulary:
TPACK - The specialized knowledge that teachers require to effectively integrate technology into teaching practices is currently referred to as technological, pedagogical, and content knowledge (TPACK)
PSTs’ - preservice teachers’ (P ...
Dynamic Learning Program for Millennial Learnersijtsrd
This research determined the effectiveness of Dynamic Learning Program for the six science process skills of our Grade 9 millennial learners of Soom Integrated School, Trinidad, Bohol, Philippines. These six science process skills are observing, communicating, classifying, inferring, measuring and predicting. Fifty three students were the respondents of the study and quasi experimental method was used. To determine the significant mean difference, z test was used. The target topics of the experiment were the three modules of the third grading period Volcanoes, Climate and Constellation. Findings revealed that Dynamic Learning Program helped students obtain higher academic performance in science, thus the six science process skills were enhanced and developed. Post test data rejected the null hypothesis there was a significant difference between the pre test and post test scores of the student. An enriched Dynamic Learning Program was designed to address the issue on low performance in science subject. Jenny P. Manatad "Dynamic Learning Program for Millennial Learners" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-5 , August 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31740.pdf Paper Url :https://www.ijtsrd.com/humanities-and-the-arts/education/31740/dynamic-learning-program-for-millennial-learners/jenny-p-manatad
Running head Research Implementation Plan7October 28In.docxjoellemurphey
Running head: Research Implementation Plan
7
October 28
In 1-2 paragraphs, describe your current research question or thesis statement, and how it is relevant to your educational setting.
My current research question involves motivation of students through technology. I want to know if technology 1) increases the motivation for math students in their desire to learn and 2) if they perform better academically with technology integrated into the curriculum. It seems that the first part of my research will be subjective and the second part objective. In my head they blend together nicely as proof-through-research of the advantages (or not) of utilizing technology in teaching mathematics. I have reasons for wanting to gain data on this. Primarily, I believe that the lives of our 21st century students will be inundated with technology for practical use. No longer will technology be used for social networking or game playing. Instead, I anticipate that the future holds uses for technology in business which we currently cannot imagine. The students in my classroom already think in terms of how to use technology not only for simple research, but also in presentations and demonstrations of their knowledge. I know that even at the kindergarten level, the use of computers is becoming more and more popular since set-up time is immediate, colors and shapes are perfect and educational games can be played by two (for a nice interpersonal approach).
A concern about measuring the improved academic performance is that we are using new world technology up against old school testing. I am going to be looking for situations where technology is being used above and beyond arithmetic answers to see how it is being perceived as assisting in the theory and application of mathematics, rather than just doing the mechanics. I am well aware of the standardized tests that my students will face, and that they are not designed for technology assistance. Perhaps I am looking at the next wave of educational improvement. The pendulum swings slowly in education. Preparing my students for their 21st century lives and at the same time preparing them to pass a standardized test from my 20th century life is the challenge I face in my classroom. Through research (with positive results), I like to think that I will be a step ahead when the day comes and technology is properly insinuated into the math curriculum.
November 1
My topic of research is: Are students better motivated and do they perform better academically when allowed to learn mathematics through the use of technology.
1. Developing and Validating a Reliable TPACK Instrument for Secondary Mathematics Preservice Teachers
J. Zelkowski, J. Gleason, D. C. Cox, & S. Bismarck
Vocabulary:
TPACK - The specialized knowledge that teachers require to effectively integrate technology into teaching practices is currently referred to as technological, pedagogical, and content knowledge (TPACK)
PSTs’ - preservice teachers’ (P ...
After School Program in Partnership with EkStep: An Experiment by Mantra4ChangeEkStepFoundation
Mantra4Change, conducted an interesting experiment to study the effectiveness of technology in improving learning outcomes. They designed a one-month pilot that would involve teaching children English on a tablet, using the Genie app provided by e-learning platform EkStep. The objectives of the experiment were to improve learning outcomes, use after-school hours profitably and increase parents’ investment in their children’s education. What were the outcomes? Read all about the experiment in this report.
Developing Curiosity And Responsibility Through Science Experiments In 7th Gr...Zawarali786
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اگر آپ تعلیمی نیوز، رجسٹریشن، داخلہ، ڈیٹ شیٹ، رزلٹ، اسائنمنٹ،جابز اور باقی تمام اپ ڈیٹس اپنے موبائل پر فری حاصل کرنا چاہتے ہیں ۔تو نیچے دیے گئے واٹس ایپ نمبرکو اپنے موبائل میں سیو کرکے اپنا نام لکھ کر واٹس ایپ کر دیں۔ سٹیٹس روزانہ لازمی چیک کریں۔
نوٹ : اس کے علاوہ تمام یونیورسٹیز کے آن لائن داخلے بھجوانے اور جابز کے لیے آن لائن اپلائی کروانے کے لیے رابطہ کریں۔
Promising Practices: A Literature Review of Technology Use by Underserved Stu...Molly B. Zielezinski PhD
How can technologies and digital learning experiences be used to support underserved, under-resourced, and underprepared students? This report summarizes research findings about the conditions and practices that support positive outcomes of technology use for these student populations.
International Journal of Humanities and Social Science Invention (IJHSSI) is an international journal intended for professionals and researchers in all fields of Humanities and Social Science. IJHSSI publishes research articles and reviews within the whole field Humanities and Social Science, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
The Journal will bring together leading researchers, engineers and scientists in the domain of interest from around the world. Topics of interest for submission include, but are not limited to
Using Visual Aids to Enhance Third Year Undergraduate Teacher Trainee Student...Premier Publishers
There is a plethora of teaching strategies that are espoused by the science teacher to attain his/her lesson objectives. Researchers have over the years found most of these methods, the tactics used by teachers in teaching, to be effective in teaching science concepts to learners. However, research has not ascertained which one teaching strategy is most effective in imparting knowledge to learners. This study seeks to find an appropriate teaching strategy that will arouse the interest and participation of students in the teaching and learning process. Visual aids were employed as the main intervention strategy. A total of one hundred third year undergraduate teacher trainees from the University of Education, Winneba, Ghana constitute the research sample. The participants were put into experimental and control groups. Tests and questionnaires were the main instruments used to collect data for analysis. Data collected were analyzed quantitatively using the Statistical Package for the Social Sciences, SPSS. The study found that the academic achievement of the students in the experimental group improved tremendously after the intervention, as opposed to that of their counterparts in the control group. The study concludes with the recommendation that visual aids should be used to teach concepts of science that are abstract in nature in order to make the lesson real to the learners.
Effectiveness of Synectics Techniques in Teaching of Zoology at Higher Second...inventionjournals
International Journal of Humanities and Social Science Invention (IJHSSI) is an international journal intended for professionals and researchers in all fields of Humanities and Social Science. IJHSSI publishes research articles and reviews within the whole field Humanities and Social Science, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
Sample Summaries of Emily Raine’s Why Should I Be Nice to You.docxagnesdcarey33086
Sample Summaries of Emily Raine’s “Why Should I Be Nice to You”
Sample Summary 1
Most people at some point in their life have worked in the service industry. This particular
industry can be quite satisfying whether it be working in fine dining, as a cocktail waitress, or at a local
diner, but for Emily Raine, who had done all of these things, the only place she ever felt “whipped” was
working as a barista at one of largest specialty coffee chains in the world (358). Raine is bothered by
how the café industry has set up the impersonal server/customer relationship and feels the best way to
solve the issue is be to “be rude” (365). In 2005, Raine expanded in an essay that appeared in the
online journal, Bad Subjects, on her frustration within the service industry and what good service really
means.
Good service in the coffee industry does not require much skill these days. Most people are
usually talking on their cell phone while ordering their daily coffee and pastry while also paying and then
out as fast as they walked into the café probably not even noticing or acknowledging any interaction
with the people serving. The coffee sector has recognized this and has set up the counters as linear
coffee bars that act the same as an assembly line. The workers are trained and assigned specific jobs in
the coffee preparing process, such as taking the order, handling the money, making the drink, to
delivery. This makes the interaction with the customer very limited, mostly just seconds. This is where
Raine feels some of the problem with the customer and server interaction. Although this is the most
effective and efficient way of working, Raine describes productive work as “dreary and repetitive” (359).
Since the 1960’s companies have been branding themselves with the quality of having “good
service” distinguishing them from the rest of the competition. Raines explains that in good service there
is an exchange between two parties: “the ‘we’ that gladly serves and the ‘you’ that happily receives,”
but also a third party, the boss, which is the ultimate decider on exactly what good service will be (360).
Companies in the service industry must market their products on servers’ friendliness; therefore
it is monitored and controlled from the people on top. Raine notes that cafés “layouts and management
styles” help create a cozy atmosphere that plays a factor in good service, but in a way that will not
disrupt the output (361). In Raine’s essay, she gives the example of an employee Starbucks has
branded; “The happy, wholesome perfume-free barista” (361). She points out that the company offers
workers stock options, health insurance, dental plans, as well as other perks of discounts and giveaways,
while also using moving personal accounts from workers who “never deemed corporate America could
care so much” (362). Raines also adds that the company does not give into unionization and although
the company pay.
SAMPLEExecutive Summary The following report is an evalua.docxagnesdcarey33086
SAMPLE:
Executive Summary
The following report is an evaluation of multiple facets of the Uruguayan economy, its overall investment attractiveness, and feasibility of doing business. After conducting research and analysis on the country in areas such as legal frameworks, fiscal policy, trade relations, infrastructure, housing, and monetary policy, Uruguay proves to be an economy of strong opportunity when evaluated against its regional/continental partners, but with significant and pressing challenges that would place the nation lower when considered at a global level. The national government and political system are proven to be stable, offering legal protections and investment frameworks that are comparable to developed economies. As a member of MERCOSUR and independently, Uruguay has ratified trade agreements, particularly with developed nations and Latin America, in a variety of structures, namely goods, services, investment promotion and protection, public procurement, and double taxation avoidance. The country offers valuable exports, and derives its imports significantly from MERCOSUR members in which people, goods, and currency are permitted to move freely. Uruguay has shown strong numbers in growth, particularly GDP and unemployment rate. Having reacted appropriately to an economic and banking crisis in the early 2000s, Uruguay was one of the few countries that was not significantly impacted by the 2008-09 economic crisis. The housing market has also seen considerable growth and looks to continue growing as the level of foreign direct investment in construction increases. Challenges that have limited the country and are foreseeable as continuing to limit Uruguay’s attractiveness include a public banking system that offers limited access to credit, undesired volatility in prime rate lending, seemingly unsustainable fiscal policy, and a lack of coordination in monetary and exchange rate policies. Given the widespread availability and transparency of information on the country and having taken all these factors into consideration, we determine Uruguay to be one of best investment opportunities in terms of a Latin American scope, but as still significantly behind developed economies. A total score of 30.5 points out of a possible 55 was assigned.
Description and Analysis of Each Measured Attribute
A.1 Government Expenditure, Tax System, Rule of Law, and Education System - 2/5; This ranking reflects Uruguay’s controlled government spending and competitive tax rate. The tax free zones are a great way to incentivize companies to operating in Uruguay. However, it does take into account the difficult experiences that corporations undergo in paying taxes. Uruguay benefits from a mature democracy with a stable political system and independent judiciary system. Uruguay has a well-established education system that provides free education and equal access to all students through the university level. However, the socioeconomic gap become.
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After School Program in Partnership with EkStep: An Experiment by Mantra4ChangeEkStepFoundation
Mantra4Change, conducted an interesting experiment to study the effectiveness of technology in improving learning outcomes. They designed a one-month pilot that would involve teaching children English on a tablet, using the Genie app provided by e-learning platform EkStep. The objectives of the experiment were to improve learning outcomes, use after-school hours profitably and increase parents’ investment in their children’s education. What were the outcomes? Read all about the experiment in this report.
Developing Curiosity And Responsibility Through Science Experiments In 7th Gr...Zawarali786
Skilling Foundation
Download Free
Past Papers
Guess Papers
Solved Assignments
Solved Thesis
Solved Lesson Plans
PDF Books
Skilling.pk
Other Websites
Diya.pk
Stamflay.com
Please Subscribe Our YouTube Channel
Skilling Foundation:https://bit.ly/3kEJI0q
WordPress Tutorials:https://bit.ly/3rqcgfE
Stamflay:https://bit.ly/2AoClW8
Please Contact at:
0314-4646739
0332-4646739
0336-4646739
اگر آپ تعلیمی نیوز، رجسٹریشن، داخلہ، ڈیٹ شیٹ، رزلٹ، اسائنمنٹ،جابز اور باقی تمام اپ ڈیٹس اپنے موبائل پر فری حاصل کرنا چاہتے ہیں ۔تو نیچے دیے گئے واٹس ایپ نمبرکو اپنے موبائل میں سیو کرکے اپنا نام لکھ کر واٹس ایپ کر دیں۔ سٹیٹس روزانہ لازمی چیک کریں۔
نوٹ : اس کے علاوہ تمام یونیورسٹیز کے آن لائن داخلے بھجوانے اور جابز کے لیے آن لائن اپلائی کروانے کے لیے رابطہ کریں۔
Promising Practices: A Literature Review of Technology Use by Underserved Stu...Molly B. Zielezinski PhD
How can technologies and digital learning experiences be used to support underserved, under-resourced, and underprepared students? This report summarizes research findings about the conditions and practices that support positive outcomes of technology use for these student populations.
International Journal of Humanities and Social Science Invention (IJHSSI) is an international journal intended for professionals and researchers in all fields of Humanities and Social Science. IJHSSI publishes research articles and reviews within the whole field Humanities and Social Science, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
The Journal will bring together leading researchers, engineers and scientists in the domain of interest from around the world. Topics of interest for submission include, but are not limited to
Using Visual Aids to Enhance Third Year Undergraduate Teacher Trainee Student...Premier Publishers
There is a plethora of teaching strategies that are espoused by the science teacher to attain his/her lesson objectives. Researchers have over the years found most of these methods, the tactics used by teachers in teaching, to be effective in teaching science concepts to learners. However, research has not ascertained which one teaching strategy is most effective in imparting knowledge to learners. This study seeks to find an appropriate teaching strategy that will arouse the interest and participation of students in the teaching and learning process. Visual aids were employed as the main intervention strategy. A total of one hundred third year undergraduate teacher trainees from the University of Education, Winneba, Ghana constitute the research sample. The participants were put into experimental and control groups. Tests and questionnaires were the main instruments used to collect data for analysis. Data collected were analyzed quantitatively using the Statistical Package for the Social Sciences, SPSS. The study found that the academic achievement of the students in the experimental group improved tremendously after the intervention, as opposed to that of their counterparts in the control group. The study concludes with the recommendation that visual aids should be used to teach concepts of science that are abstract in nature in order to make the lesson real to the learners.
Effectiveness of Synectics Techniques in Teaching of Zoology at Higher Second...inventionjournals
International Journal of Humanities and Social Science Invention (IJHSSI) is an international journal intended for professionals and researchers in all fields of Humanities and Social Science. IJHSSI publishes research articles and reviews within the whole field Humanities and Social Science, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
Sample Summaries of Emily Raine’s Why Should I Be Nice to You.docxagnesdcarey33086
Sample Summaries of Emily Raine’s “Why Should I Be Nice to You”
Sample Summary 1
Most people at some point in their life have worked in the service industry. This particular
industry can be quite satisfying whether it be working in fine dining, as a cocktail waitress, or at a local
diner, but for Emily Raine, who had done all of these things, the only place she ever felt “whipped” was
working as a barista at one of largest specialty coffee chains in the world (358). Raine is bothered by
how the café industry has set up the impersonal server/customer relationship and feels the best way to
solve the issue is be to “be rude” (365). In 2005, Raine expanded in an essay that appeared in the
online journal, Bad Subjects, on her frustration within the service industry and what good service really
means.
Good service in the coffee industry does not require much skill these days. Most people are
usually talking on their cell phone while ordering their daily coffee and pastry while also paying and then
out as fast as they walked into the café probably not even noticing or acknowledging any interaction
with the people serving. The coffee sector has recognized this and has set up the counters as linear
coffee bars that act the same as an assembly line. The workers are trained and assigned specific jobs in
the coffee preparing process, such as taking the order, handling the money, making the drink, to
delivery. This makes the interaction with the customer very limited, mostly just seconds. This is where
Raine feels some of the problem with the customer and server interaction. Although this is the most
effective and efficient way of working, Raine describes productive work as “dreary and repetitive” (359).
Since the 1960’s companies have been branding themselves with the quality of having “good
service” distinguishing them from the rest of the competition. Raines explains that in good service there
is an exchange between two parties: “the ‘we’ that gladly serves and the ‘you’ that happily receives,”
but also a third party, the boss, which is the ultimate decider on exactly what good service will be (360).
Companies in the service industry must market their products on servers’ friendliness; therefore
it is monitored and controlled from the people on top. Raine notes that cafés “layouts and management
styles” help create a cozy atmosphere that plays a factor in good service, but in a way that will not
disrupt the output (361). In Raine’s essay, she gives the example of an employee Starbucks has
branded; “The happy, wholesome perfume-free barista” (361). She points out that the company offers
workers stock options, health insurance, dental plans, as well as other perks of discounts and giveaways,
while also using moving personal accounts from workers who “never deemed corporate America could
care so much” (362). Raines also adds that the company does not give into unionization and although
the company pay.
SAMPLEExecutive Summary The following report is an evalua.docxagnesdcarey33086
SAMPLE:
Executive Summary
The following report is an evaluation of multiple facets of the Uruguayan economy, its overall investment attractiveness, and feasibility of doing business. After conducting research and analysis on the country in areas such as legal frameworks, fiscal policy, trade relations, infrastructure, housing, and monetary policy, Uruguay proves to be an economy of strong opportunity when evaluated against its regional/continental partners, but with significant and pressing challenges that would place the nation lower when considered at a global level. The national government and political system are proven to be stable, offering legal protections and investment frameworks that are comparable to developed economies. As a member of MERCOSUR and independently, Uruguay has ratified trade agreements, particularly with developed nations and Latin America, in a variety of structures, namely goods, services, investment promotion and protection, public procurement, and double taxation avoidance. The country offers valuable exports, and derives its imports significantly from MERCOSUR members in which people, goods, and currency are permitted to move freely. Uruguay has shown strong numbers in growth, particularly GDP and unemployment rate. Having reacted appropriately to an economic and banking crisis in the early 2000s, Uruguay was one of the few countries that was not significantly impacted by the 2008-09 economic crisis. The housing market has also seen considerable growth and looks to continue growing as the level of foreign direct investment in construction increases. Challenges that have limited the country and are foreseeable as continuing to limit Uruguay’s attractiveness include a public banking system that offers limited access to credit, undesired volatility in prime rate lending, seemingly unsustainable fiscal policy, and a lack of coordination in monetary and exchange rate policies. Given the widespread availability and transparency of information on the country and having taken all these factors into consideration, we determine Uruguay to be one of best investment opportunities in terms of a Latin American scope, but as still significantly behind developed economies. A total score of 30.5 points out of a possible 55 was assigned.
Description and Analysis of Each Measured Attribute
A.1 Government Expenditure, Tax System, Rule of Law, and Education System - 2/5; This ranking reflects Uruguay’s controlled government spending and competitive tax rate. The tax free zones are a great way to incentivize companies to operating in Uruguay. However, it does take into account the difficult experiences that corporations undergo in paying taxes. Uruguay benefits from a mature democracy with a stable political system and independent judiciary system. Uruguay has a well-established education system that provides free education and equal access to all students through the university level. However, the socioeconomic gap become.
Sample Student Industry AnalysisExecutive SummaryCom.docxagnesdcarey33086
Sample Student Industry Analysis
Executive Summary
Company Description
Seg and Cycle the City is a Koblenz, Germany based company specializing in offering rentals for recreational vehicles (Segways, bikes, tandems and inline skates), guiding and informational services to mainly tourists, locals and their visitors, students or for event entertainment purposes. The company will begin operations in April, 2010, as a Limited Liability Company (Unternehmensgesellschaft). The company will take advantage of the increasing popularity of Segway scooters: two-wheeled, self-balancing electric vehicles invented by Dean Kamen in 2001, as a new, more exiting and relaxing alternative to walking tours for tourists to enjoy the sights and atmosphere of the city. Also, the company will provide high quality MP3 Audio-City Guides to capture the large number of visitors who are more independent-minded, not willing to participate in guiding services offered by the tourism board of Koblenz and thereby gain significant market share.
Mission Statement
“Seg and Cycle the City is a speciality tour operator committed to providing a unique, entertaining, memorable and educational experience of the city that meets the needs of both kinds of tourists: those who seek a guided experience and those who are more independent minded.
We will take pride in doing our best to present our city tour in a memorable way and leave our customers with the image that Koblenz is a place to go back to. We will achieve this by building strong personal relationships with our customers during our guided tours and by suggesting journeys for the individual exploration.
As an advocate for sustainability, we want to promote the use of environmentally friendly transportation devices and, thereby, improve the image of our beloved city. We will also fulfil this mission of sustainability by providing an affordable opportunity for college students to rent a bike.”
Industry Analysis & Trends
The services provided by Seg and Cycle the City as a player in the service industry are affected by the developments in the recreational and sports equipment rental trade and by developments in the city and bike tourism industry in Germany, Rhineland Palatinate and, specifically, Koblenz.
Size and Growth
The personal service industry in Germany generally shows a stable performance with relatively stable revenue regardless of the difficult economic situation. A high employment rate, increased wages, and a decreasing inflation rate have increased disposable income, which especially benefits the leisure industry (German Chamber of Commerce e.V).The following graph shows that the service industry (blue line), as the leading sector concerning economic added value in the Koblenz (including surrounding communities) underwent major growth compared to other main sectors from 1992 to 2005. Since 2004, growth rate appears to be stable and rather low, but remains in a leading position.
Travel Germany, Rhineland-Pa.
SAMPLING MEAN DEFINITION The term sampling mean is.docxagnesdcarey33086
SAMPLING MEAN:
DEFINITION:
The term sampling mean is a statistical term used to describe the properties of statistical
distributions. In statistical terms, the sample mean from a group of observations is an
estimate of the population mean . Given a sample of size n, consider n independent random
variables X1, X2... Xn, each corresponding to one randomly selected observation. Each of these
variables has the distribution of the population, with mean and standard deviation . The
sample mean is defined to be
WHAT IT IS USED FOR:
It is also used to measure central tendency of the numbers in a database. It can also be said that
it is nothing more than a balance point between the number and the low numbers.
HOW TO CALCULATE IT:
To calculate this, just add up all the numbers, then divide by how many numbers there are.
Example: what is the mean of 2, 7, and 9?
Add the numbers: 2 + 7 + 9 = 18
Divide by how many numbers (i.e., we added 3 numbers): 18 ÷ 3 = 6
So the Mean is 6
SAMPLE VARIANCE:
DEFINITION:
The sample variance, s2, is used to calculate how varied a sample is. A sample is a select number
of items taken from a population. For example, if you are measuring American people’s weights,
it wouldn’t be feasible (from either a time or a monetary standpoint) for you to measure the
weights of every person in the population. The solution is to take a sample of the population, say
1000 people, and use that sample size to estimate the actual weights of the whole population.
WHAT IT IS USED FOR:
The sample variance helps you to figure out the spread out in the data you have collected or are
going to analyze. In statistical terminology, it can be defined as the average of the squared
differences from the mean.
HOW TO CALCULATE IT:
Given below are steps of how a sample variance is calculated:
• Determine the mean
• Then for each number: subtract the Mean and square the result
• Then work out the mean of those squared differences.
To work out the mean, add up all the values then divide by the number of data points.
First add up all the values from the previous step.
But how do we say "add them all up" in mathematics? We use the Roman letter Sigma: Σ
The handy Sigma Notation says to sum up as many terms as we want.
• Next we need to divide by the number of data points, which is simply done by
multiplying by "1/N":
Statistically it can be stated by the following:
•
• This value is the variance
EXAMPLE:
Sam has 20 Rose Bushes.
The number of flowers on each bush is
9, 2, 5, 4, 12, 7, 8, 11, 9, 3, 7, 4, 12, 5, 4, 10, 9, 6, 9, 4
Work out the sample variance
Step 1. Work out the mean
In the formula above, µ (the Greek letter "mu") is the mean of all our values.
For this example, the data points are: 9, 2, 5, 4, 12, 7, 8, 11, 9, 3, 7, 4, 12, 5, 4, 10, 9, 6, 9, 4
The mean is:
(9+2+5+4+12+7+8+11+9+3+7+4+12+5+4+10+9+6+9+4) / 20 = 140/20 = 7
So:
µ.
SAMPLING MEANDEFINITIONThe term sampling mean is a stati.docxagnesdcarey33086
SAMPLING MEAN:
DEFINITION:
The term sampling mean is a statistical term used to describe the properties of statistical distributions. In statistical terms, the sample meanfrom a group of observations is an estimate of the population mean. Given a sample of size n, consider n independent random variables X1, X2... Xn, each corresponding to one randomly selected observation. Each of these variables has the distribution of the population, with mean and standard deviation. The sample mean is defined to be
WHAT IT IS USED FOR:
It is also used to measure central tendency of the numbers in a database. It can also be said that it is nothing more than a balance point between the number and the low numbers.
HOW TO CALCULATE IT:
To calculate this, just add up all the numbers, then divide by how many numbers there are.
Example: what is the mean of 2, 7, and 9?
Add the numbers: 2 + 7 + 9 = 18
Divide by how many numbers (i.e., we added 3 numbers): 18 ÷ 3 = 6
So the Mean is 6
SAMPLE VARIANCE:
DEFINITION:
The sample variance, s2, is used to calculate how varied a sample is. A sample is a select number of items taken from a population. For example, if you are measuring American people’s weights, it wouldn’t be feasible (from either a time or a monetary standpoint) for you to measure the weights of every person in the population. The solution is to take a sample of the population, say 1000 people, and use that sample size to estimate the actual weights of the whole population.
WHAT IT IS USED FOR:
The sample variance helps you to figure out the spread out in the data you have collected or are going to analyze. In statistical terminology, it can be defined as the average of the squared differences from the mean.
HOW TO CALCULATE IT:
Given below are steps of how a sample variance is calculated:
· Determine the mean
· Then for each number: subtract the Mean and square the result
· Then work out the mean of those squared differences.
To work out the mean, add up all the values then divide by the number of data points.
First add up all the values from the previous step.
But how do we say "add them all up" in mathematics? We use the Roman letter Sigma: Σ
The handy Sigma Notation says to sum up as many terms as we want.
· Next we need to divide by the number of data points, which is simply done by multiplying by "1/N":
Statistically it can be stated by the following:
·
· This value is the variance
EXAMPLE:
Sam has 20 Rose Bushes.
The number of flowers on each bush is
9, 2, 5, 4, 12, 7, 8, 11, 9, 3, 7, 4, 12, 5, 4, 10, 9, 6, 9, 4
Work out the sample variance
Step 1. Work out the mean
In the formula above, μ (the Greek letter "mu") is the mean of all our values.
For this example, the data points are: 9, 2, 5, 4, 12, 7, 8, 11, 9, 3, 7, 4, 12, 5, 4, 10, 9, 6, 9, 4
The mean is:
(9+2+5+4+12+7+8+11+9+3+7+4+12+5+4+10+9+6+9+4) / 20 = 140/20 = 7
So:
μ = 7
Step 2. Then for each number: subtract the Mean and square the result
This is t.
sampleReportt.docx
Power Electronics
Contents Comment by adtaylor: This table of contents is clear and precise: I can see the flow of ideas and were the report will go
1.1 Introduction 2
1.2 Aim 2
1.3 Objectives 2
2.1 Diode Origins 3
2.1.1 Early Diodes 3
2.1.2 Thermionic Diodes 3-4
2.1.3 Crystal Diodes 4
2.2 Diode Fundamentals 5
2.2.1 Semiconductors 5
2.2.2 Doping 5-6
2.2.3 PN Junctions 6
2.2.4 Forward and Reverse Bias 7
2.3 Diode Operation 8
2.3.1 PN Junction Diode 8
2.3.2 Diode DC Operation 9
2.3.3 Diode AC Operation 10
2.4 Full Wave Bridge Rectification 11
2.4.1 Bridge Configuration 11
2.4.2 Diode Conduction Pairing 11
2.5 Three Phase Full Wave Bridge Rectification 12
2.5.1 Bridge Configuration 12
2.5.2 Diode Conduction Sequence 12-14
2.5.3 Output Voltage and current characteristics 14-15
3 Lab Report 16
3.1 Lab Report Objectives 16
3.2 Lab Report important notes 16
3.3 Output Signal 17
3.4 Output Signal (D1 removed) 18
3.5 Output Signal (D5 removed) 19
3.6 Output Signal (D6 removed) 20
4 Results, Comparisons and Discussions 21-22
5 Conclusions 23
6 References 24
1.1 Introduction
1. Rectifiers are electrical devices that convert an AC supply into a DC output through a process known as rectification. The theory of rectification has been around for over one hundred years, when early discoveries uncovered the unidirectional current flow (polarity dependent) in vacuum valves and crystal (solid state) devices. These devices were known as rectifiers; however the naming convention was changed in 1919 to diode. The name diode was derived from the Greek words ‘dia’ (through) and ‘ode’ (path). Comment by adtaylor: I don’t really think this sort of thing is necessary: the project report is supposed to be on investigating these devices or technology, not its 100 year old history.
When the marker sees this sort of thing, the first thing that springs to mind is that the student is padding out their report. It is very clear when this happens
2. Diodes are commonly known as switching devices; however due to there complex non-linear voltage and current characteristics, there applications have become numerous depending on the PN junction construction. Some special diode applications are as follows: Comment by adtaylor: This is good in an introduction, giving the reader some background on the device and what it does: this is the objective of this report after all
a. Voltage regulator (Zener diodes),
b. Tuners (Varactor diodes),
c. RF oscillators (Tunnel diodes), and
d. Light emitters (LED’s).
1.2 Aim
1. To observe the operation of a three phase uncontrolled rectifier circuit with a purely resistive load. Comment by adtaylor: This aim i.
SAMPLE Project (Answers and explanations are in red)I opened t.docxagnesdcarey33086
SAMPLE Project (Answers and explanations are in red)
I opened the Week 1 Project from Doc Sharing.
Projects
Project 1: Working With the Data Editor.
Downloading Statdisk
1) First go to the website at www.statdisk.org and then scroll down to the bottom of the page to download
the Statdisk program version 11.1.0. by clicking on the windows or the MAC version.
I went to www.statdisk.org and downloaded the statdisk 11.1.0 windows version.
Download Statdisk Version 11.1.0
Statdisk 11.1.0 Windows 2K, XP, Vista
Statdisk 11.1.0 OSX
See the included ReadMe.txt file for details.
Open A Saved Data File
2) After you have opened the Statdisk program, go to Datasets and then Elementary Stats, 9th Edition.
Open the file named SUGAR. The data will appear in column 1 in the Sample Editor.
I opened the statdisk program, went to Datasets, then Elementary Stats, 9th edition and opened the Sugar file.
Copy and Paste a Data File
3) Make a copy of the data values listed in column 1. Paste the data files into column 2. Re-name the title
of column 2 to COPY.
I went to Copy and then selected column 1. I then selected copy. Then I clicked on Paste and chose column 2. I then had 2 identical columns of the Sugar data.
Sorting Data Values
4) Make another copy of the data values listed in column 1 and paste those into column 3. Then sort only
the data values in column 3. Label the column SORT.
I selected Copy and clicked on column 1 and then pasted them into column 3. I clicked on Sort and then selected column 3.
Entering a Set of Data Values
5) Manually enter all of the data values listed below into column 4 in the Statdisk editor. Type all of the data values into the one column in vertical fashion like the other data values are listed in the other columns. It does not matter what order you input the data values. Label the data values with the name of IQ.
I typed the following data into column 4.
83
56
43
65
74
28
88
77
74
51
65
46
55
66
35
75
54
63
74
48
37
57
37
62
32
48
43
52
52
61
80
75
54
45
44
60
65
44
33
32
41
52
38
62
74
74
46
37
37
39
6) What are some of the problems that could occur when entering data values into a statistics technology
editor?
Problems that could occur when entering data values into a statistics technology editor include ………………………………………………………………………..
Sample Transformation
7) Go to the Data menu then select Sample Transformations to add 100 to all of the data values in column 4 and then paste them into column 5.
I went to the Data menu and ……………………………………………………………………………..
Classifying Variables
8) Would the grams of sugar data in column 1 be considered a sample or a population?
The grams of sugar data in column 1 would be considered a ……………..
9) State whether the sugar variable is qualitative or quantitative?
The sugar variable is ……………………………..
10) State whether the sugar variable is discrete, continuous or neither?.
Sample Questions to Ask During an Informational Interview .docxagnesdcarey33086
Sample Questions to Ask During an Informational Interview
You will not have time to ask all of the questions that you will want to ask the interviewee. Remember to
focus on the ones you feel will be most useful to you personally. Pick10-15 to use as a guideline but leave
room for the possibility that other questions will develop from your conversation.
x What is your job like?
o A typical day?
o What do you do? What are the duties/functions/responsibilities of your job?
o What kind of problems do you deal with?
o What kinds of decisions do you make?
o What percentage of your time is spent doing what?
o How does the time use vary? Are there busy and slow times or is the work activity fairly
constant?
x Why did this type of work interest you and how did you get started?
x How did you get your job? What jobs and experiences have led you to your present position?
x Can you suggest some ways a student could obtain this necessary experience?
x What are the most important personal satisfactions and dissatisfactions connected with your
occupation? What part of this job do you personally find most satisfying? Most challenging?
What do you like and not like about working in this industry?
x What things did you do before you entered this occupation?
o Which have been most helpful?
o What other jobs can you get with the same background?
x What are the various jobs in this field or organization?
x Why did you decide to work for this company?
x What do you like most about this company?
x How does your company differ from its competitors?
x Are you optimistic about the company’s future and your future with the company?
x What does the company do to contribute to its employees’ professional development?
x How does the company make use of technology for internal communication and outside
marketing?
x What sorts of changes are occurring in your occupation?
x How does a person progress in your field? What is a typical career path in this field or
organization?
o What is the best way to enter this occupation?
o What are the advancement opportunities?
o What are the major qualifications for success in this occupation?
x What are the skills that are most important for a position in this field?
x What particular skills or talents are most essential to be effective in your job? How did you learn
these skills? Did you enter this position through a formal training program? How can I evaluate
whether or not I have the necessary skills for a position such as yours?
x How would you describe the working atmosphere and the people with whom you work?
x What can you tell me about the corporate culture?
x Is there flexibility related to dress, work hours, vacation schedule, place of residence, etc.?
x What work-related values are strongest in this type of work (security, high income, variety,
independence)?
x If you job progresses as you like, what would be the next step in your career?
Kori Ryerson
Though these a.
Sample Table.pdfTopic RatingPatients Goal Able to walk .docxagnesdcarey33086
Sample Table.pdf
Topic Rating
Patient's Goal Able to walk to work instead of drive -
Gender M -
Age 24 -
height (in) 72 -
weight (lbs) 200 -
Circumference waist (in) 45 high
Table 1 Health Assessment
Value
exercise physiol.docx
I have to complete a lab in exercise physiology course..
Learning Objectives
· Health Related Physical Fitness Testing and Interpretation
· Exercise Assessment
· Anthropometric Data - height, weight, BMI, body composition
· Cardiorespiratory Fitness
I have lab report for this course, I only need you to take care of THE RESULTS SECTION.
-------------
Results – 25% – (approximately 1-2 pages)
Present in a clear, concise, logical manner the results of the data you are given and must calculate, compared to
norms listed in the texts and other resources you may select depending on which of the three lab reports you are
completing. Present the information in tables only.
----------------------
in the attachments you will see all info needed about the lab report and what you need to know about the results.
Lab Patients Fall 2014.xlsx
John JamesFALL 2014 BIO345OL.1 Patient Data SetJohn JamesTopicValueGoalExercise, lose weight, stop smokingHistory/personalsmokes socially 1/2 pk per week, does not exercise, works long hours as a produce managerHistory/familyfather died of MI age 60, he answered yes on the PAR-Q and complains of a sore right knee from a sports injury 10 yrs ago,Medicationatorvastatin, tylenol for knee painGenderMAge40height (in) 70weight (lbs)200Circumference waist (in)40Skinfolds (mm)ChestAbdomenThigh253215HR/resting80BP/resting138/84Cholesterol (mg·dL-1)242LDL Cholesterol162HDL Cholesterol58Triglycerides202*********************** EVERYTHING BELOW THIS IS FOR LAB 2 and 3 *************************
Sarah SmithFALL 2014 BIO345OL.1 Patient Data SetSarah SmithTopicValueGoalExercise to lose weight, get strongerHistory/personaldoes not exercise, teacherHistory/familyFather hypertension, obese; Mother overweightMedicationAviane, alprazolamGenderFAge30height (in) 64weight (lbs)147Circumference waist (in)34Skinfolds (mm)tricepssuprailiacthigh241820HR/resting72BP/resting124/80Cholesterol (mg·dL-1)198LDL Cholesterol132HDL Cholesterol39Triglycerides148*********************** EVERYTHING BELOW THIS IS FOR LAB 2 and 3 *************************
Larry LevineFALL 2014 BIO345OL.1 Patient Data SetLarry LevineTopicValueGoalrun a 10k without stoppingHistory/personalsoftware engineer, Gym exercise 3x/wk elliptical and weightsHistory/familyFather has Type II Diabetes Mellitus; Mother overweight mild hypertensionMedicationnoneGenderMAge30height (in) 69weight (lbs)172Circumference waist (in)39Skinfolds (mm)ChestAbdomenThigh183022HR/resting78BP/resting124/82Cholesterol (mg·dL-1)188LDL Cholesterol110HDL Cholesterol43Triglycerides152*********************** EVERYTHING BELOW THIS IS FOR LAB 2 and 3 *************************
Alice AmesFALL 2014 BIO345OL.1 Patient Data SetAlice AmesTopicValueGoalSet up a routine that she c.
SAMPLE QUESTIONExercise 1 Consider the functionf (x,C).docxagnesdcarey33086
SAMPLE QUESTION:
Exercise 1: Consider the function
f (x,C)=
sin(C x)
Cx
(a) Create a vector x with 100 elements from -3*pi to 3*pi. Write f as an inline or anonymous function
and generate the vectors y1 = f(x,C1), y2 = f(x,C2) and y3 = f(x,C3), where C1 = 1, C2 = 2 and
C3 = 3. Make sure you suppress the output of x and y's vectors. Plot the function f (for the three
C's above), name the axis, give a title to the plot and include a legend to identify the plots. Add a
grid to the plot.
(b) Without using inline or anonymous functions write a function+function structure m-file that does
the same job as in part (a)
SAMPLE LAB WRITEUP:
MAT 275 MATLAB LAB 1 NAME: __________________________
LAB DAY and TIME:______________
Instructor: _______________________
Exercise 1
(a)
x = linspace(-3*pi,3*pi); % generating x vector - default value for number
% of pts linspace is 100
f= @(x,C) sin(C*x)./(C*x) % C will be just a constant, no need for ".*"
C1 = 1, C2 = 2, C3 = 3 % Using commans to separate commands
y1 = f(x,C1); y2 = f(x,C2); y3 = f(x,C3); % supressing the y's
plot(x,y1,'b.-', x,y2,'ro-', x,y3,'ks-') % using different markers for
% black and white plots
xlabel('x'), ylabel('y') % labeling the axis
title('f(x,C) = sin(Cx)/(Cx)') % adding a title
legend('C = 1','C = 2','C = 3') % adding a legend
grid on
Command window output:
f =
@(x,C)sin(C*x)./(C*x)
C1 =
1
C2 =
2
C3 =
3
(b)
M-file of structure function+function
function ex1
x = linspace(-3*pi,3*pi); % generating x vector - default value for number
% of pts linspace is 100
C1 = 1, C2 = 2, C3 = 3 % Using commans to separate commands
y1 = f(x,C1); y2 = f(x,C2); y3 = f(x,C3); % function f is defined below
plot(x,y1,'b.-', x,y2,'ro-', x,y3,'ks-') % using different markers for
% black and white plots
xlabel('x'), ylabel('y') % labeling the axis
title('f(x,C) = sin(Cx)/(Cx)') % adding a title
legend('C = 1','C = 2','C = 3') % adding a legend
grid on
end
function y = f(x,C)
y = sin(C*x)./(C*x);
end
Command window output:
C1 =
1
C2 =
2
C3 =
3
Joe Bob
Mon lab: 4:30-6:50
Lab 3
Exercise 1
(a) Create function M-file for banded LU factorization
function [L,U] = luband(A,p)
% LUBAND Banded LU factorization
% Adaptation to LUFACT
% Input:
% A diagonally dominant square matrix
% Output:
% L,U unit lower triangular and upper triangular such that LU=A
n = length(A);
L = eye(n); % ones on diagonal
% Gaussian Elimination
for j = 1:n-1
a = min(j+p.
Sample PowerPoint Flow Week 5Select a current product with which.docxagnesdcarey33086
Sample PowerPoint Flow Week 5
Select a current product with which you are familiar, and pitch a new Integrated Marketing Communication plan (IMC) to your client.
Create a Microsoft PowerPoint presentation of 8-10 slides that includes the following components:
· Identify any considerations you will need to employ to build and maintain the brand and customer loyalty.
· Make a recommendation for an integrated marketing communications program. Include at least three of the five communication channels (Advertising, Sales Promotion, Personal Selling, Direct Marketing, Public Relations).
· First state who the target market is that you are communicating with
· Next discuss each channel of communication individually that you have selected and explain your rationale. State what the purpose of the channel is, give your objectives, and explain the strategy or how you will use this to accomplish the objectives.
-PowerPoint Outline-
Integrated Marketing Communication plan (IMC)
· Background on the product
· Target Market (describe)
· Choose at least 3 Marketing Communications to fit best with your product (most important component is that you can distinguish between the three)
1. Advertising (the purpose of advertising, explain that you know what it is)
· Purpose
· Objectives
· Strategy (How will you do this? TV, Radio, Mag, Internet)
2. Sales Promotion
· Purpose
· Objectives
· (
Only choose 3 of these Marketing Communications
)Strategy
3. Personal Selling
· Purpose
· Objectives
· Strategy
4. Direct Marketing
· Purpose
· Objectives
· Strategy
5. Public Relations
· Purpose
· Objectives
· Strategy
Please remember to include: Identify any considerations you will need to employ to build and maintain the brand and customer loyalty. (Beginning on the Background slide)
(
Remember: Identify any considerations you will need to employ to build and maintain the brand and customer loyalty.
)
Integrated Marketing Communicaitons Plan (title slide)
Background
Background of the product
Communication 3
Target Market
Communication 1
Communication 2
Purpose
Objective
Strategy
Purpose
Objective
Strategy
Purpose
Objective
Strategy
Introduction
.
Sample Of assignmentIntroductionComment by Jane Summers Introd.docxagnesdcarey33086
Sample Of assignment
Introduction Comment by Jane Summers: Introduction – The first part of your essay should describe what happened, what did you do, what was your role and what was the role of others involved? In this section you also need to make clear what the ethical issue was and why it was an issue. This section should be short, concise and factual. There is no need for emotion or feelings at this point.
The purpose of this paper is to reflect upon an ethical issue that arose in my law firm. The paper discusses what happened, what the ethical issues were, how I felt at the time, how I went about dealing with these ethical issues including what ethical approach I subconsciously took, what caused me to take that approach and what ethical approach I would take if I was in the position again. I conclude with what I learnt from the reflective process.
In 2009 a lady, Fiona, and her grandfather, Paul, attended my law firm. Fiona said Paul and her grandmother, Mary, owned a house. They were worried that Fiona’s mother, Christine, (an apparent drug user) was going to try and force the grandparents into signing the house over to her and then evict the grandparents out of the house.
Fiona indicated they had mutually agreed that to protect the grandparents from the anticipated actions of Christine, the grandparents would gift the house to Fiona. Fiona, as owner of the house and presumably someone, whom Christine couldn’t stand over, would then let them stay in the house until they died.
Fiona told me that Mary was in hospital, very ill and slowly losing her mental capacity. They wanted the transfer of house to take place urgently. Based on what Fiona and Paul said, I drafted the necessary documents and the house was transferred into Fiona’s name.
There were three ethical issues. Firstly, should I accept the word of Fiona that Christine would try to force the grandparents out of the house; after all it could be Fiona herself who was out to deceive her grandparents.
Secondly, should I make enquiries about Mary’s mental capacity, perhaps even attend the hospital? However, as I was told this was an urgent matter, I prepared the documents immediately to be taken to Mary for signing.
Finally, should I have persuaded Fiona to get her own lawyer to avoid any conflict, after all I was there to look after the interests of the grandparents? Comment by Jane Summers: This introduction is concise, explains the scenario, identifies the ethical issues that were present and does not attach a value judgement or emotion to the information.
Feelings and Emotions Comment by Jane Summers: This next section is where you describe how you felt about the issue. You should discuss what were you thinking at the time, and perhaps the emotional state you were in when taking the actions you took or after the event occurred.
I had various feelings and thoughts about this issue at the time. Initially, I was sceptical of what I was being told by Fiona. It was hard for me.
Sample Access Control Policy1.Purpose2.Scope3.Pol.docxagnesdcarey33086
Sample Access Control Policy
1. Purpose
2. Scope
3. Policy
Access control policy
Who and how is authorisation for access to systems and business applications granted?User access
How is access to information systems to be granted (eg passwords etc)?
Who is responsible for monitoring and reviewing access rights?
Who is responsible for removing and notifying of redundant User IDs and accounts and what is the process?
Who is responsible for granting access to systems utilities and privilege management?
How is access and use of systems utilities monitored?User responsibilities
How are users to be educated and made aware of access responsibilities?
What are users’ responsibilities for access and passwords?Network access
Who is responsible for authorising network access (both internally and external connections)?
What is the process for enforced network paths, user authentication for external connection, Node authentication, use of remote diagnostic ports?
How will network domains and groups be segregated?
What network connection controls will be in place – eg. times, type and size of file transfers to external source?Operating system access
How is automatic terminal identification used to authenticate connections to specific locations and portable equipment?
What is the secure logon and logoff process for access?
Are there restrictions on connection times in place?
How will passwords be issued and managed – what are the rules for passwords?
How will systems utilities’ use be controlled? Application access
Who authorises application access eg read, write?
What is the process for authorising access to information when systems share resources, eg. two separate systems are integrated to form a third application or system?Monitoring system access
What system events will be logged, eg. date, IP address, User-IDs, unsuccessful logins, alerts from intrusion detection systems (firewall)?
When and who will review and monitor system logs? And where are they stored?Mobile computing and telecommuting
Outline Agency policy for each type of mobile device – eg. physical storage, personal usage, protection of information held on the device, access mechanisms (eg password), virus protection, backup.
Policy on use of computer equipment for telecommuting, eg. authorisation process, system access, physical security, etc.
Template - Access Control Policy Page 1 of 2 June 06
.
SAMPLE GED 501 RESEARCH PAPERTechnology Based Education How.docxagnesdcarey33086
SAMPLE GED 501 RESEARCH PAPER
Technology Based Education: How can theories of learning and/or development be used to guide the use of technology in schools?
Introduction
Twenty first century learning environment is no longer a goal, but an educational reality. We are deep into the midst of a paradigm shift that spans across our entire globe. The technology we live with as a society has exponentially grown at an increasingly rapid rate. This is illustrated from the integration of computers in every facet of our lives. This includes televisions, phones, cars, and even coffee makers which all contain a microprocessor, they all think. Even more startling is how connected we all are. Access to information is available at a finger’s touch. We can connect to people, we can shop, and ask for directions from anywhere at any time. We are tethered to the world by social media such as Facebook. Google has mapped out the entire earth. We can send a text message from the middle of Antarctica. Even more startling is how corporations and the government collects data as they track our ever movement as we go online. All this is reflected upon education, which mirrors this new 21st century society. No longer is the classroom isolated from the world, but it too is connected. Learning technology is critical more than ever because it impacts skills and productivity (Hall, 2011) for both the student and the teacher.
Background
Incorporating technology into the classroom has been around since computers were invented, but it has been only recently been the norm in the last few years. This revolution no more pointedly reflected in our education system, than it is today. Johri (2011) states that although digital information technologies in education has become commonplace, there are few guiding frameworks or theories that explains the relationship between technology and learning practices. Bennett and Oliver (2011) share that view. Research has focused on practical implementation versus the theory and application of the technology. They explained once theories are developed, a better understanding of effective technology based pedagogy would occur.
Technology in Education
I believe however, all the theorists play well with technology. Technology is merely a tool. Its strength is the ability to facilitate. John Dewey is a prime example. He believed in “learning by doing”. With an iPad there is an App where by students are able to see the stars and the constellation. With the use of satellites and GPS held within the piece of technology, students are able to view exact locations of stars. Where the iPad is directed in the sky, the stars would be in that location on the handheld screen, no telescope necessary. The students interact with the material to gain knowledge.
This is further illustrated by this second example. The best way to learn about Mayan pyramids is to actually visit one in Central America. With the use of laptops, students can connect to the Discove.
Sample Case with a report Dawit Zerom, Instructor Cas.docxagnesdcarey33086
Sample Case with a report
Dawit Zerom, Instructor
Case Study: Ft. Myers Home Sales
Due to a crisis in subprime lending, obtaining a mortgage has become difficult even for
people with solid credit. In a report by the Associated Press (August 25, 2007), sales of
existing homes fell for a 5th consecutive month, while home prices dropped for a record
12th month in July 2007. Mayan Horowitz, a research analyst for QuantExperts, wishes to
study how the mortgage crunch has impacted the once booming market of Florida. He
collects data on the sale price (in $1, 000s) of 25 single-family homes in Fort Myers,
Florida, in January 2007 and collects another sample in July 2007. For a valid
comparison, he samples only three bedroom homes, each with 1,500 square feet or less of
space on a lot size of 10, 000 square feet or less.
Excel data are available in Titanium page.
Use the sample information (appropriate descriptive statistics) to address the following
aspects. Your report should not exceed one page.
1. Compare the mean and median in each of the two sample periods.
2. Compare the standard deviation and coefficient of variation in each of the two sample
periods. Also incorporate quartiles.
3. Discuss significant changes in the housing market in Fort Myers over the 6-month
period.
Sample Case with a report
Dawit Zerom, Instructor
Sample Report
The steady stream of dismal housing market statistics lately is a clear indication that the national
real estate market is in a serious crisis. The uncertainty is also forcing lenders to slow down on
their lending, and as a result obtaining a mortgage is becoming increasingly difficult even for
people with solid credit. In light of this situation, Mayan Horowitz conducts a small study to
learn if the national trend also affects the once booming market of Florida by focusing on Fort
Myers, Florida. To see the trend of the housing market over a 6-month period, he obtains price of
25 single family homes in January 2007 and another comparable 25 single family homes in July
2007. Table 1 below shows the most relevant descriptive analysis.
The average home price in January of 2007 was $231, 080 versus $182, 720 in July of the same
year. That is about a 21% drop in the average home price. Also in January, half of the homes
sold for more than $205,000, versus only $180,000 in July (see the median). Since the mean is
more effected by outliers (in this case, a few relatively high prices), the median is an appropriate
measure of central location.
While measures of central location typically represent where the data clusters, these measures do
not relay information about the variability in the data. Both the standard deviation and the
coefficient of variation are higher in January indicating that home prices were more dispersed in
January. Further, while 25% of the houses were sold at the price of $158, 000 or less in Janua.
Sales_Marketing_-_Riordan_9.docx
Sales & Marketing
Home | Marketing Information System | Sales Plan - 2006 | Customer List | Sales Chart - 2005 |
Product Catalog |
The firm is attempting to consolidate customer information to deliver better value to the customer. The firm has historical records in many disparate databases, as well as in paper files and microfiche. Below is a listing of information the firm has available to consolidate into a CRM system.
Historical Sales
Riordan has a system to track historical sales. In the past, most sales data was recorded using paper and pencil. In the last few years, the firm has managed the information electronically. Information available includes the following:
· Dates including order, delivery, and payment dates by order.
· Unit and dollar volume of each product including plastic bottles, fans, heart valves, medical stents, and custom plastic parts rolled up to be examined by product group and customer.
· Sales by customer to include price paid, cost, margin, and discount given.
Files of Past Marketing Research, Marketing Plans, and Design Awards
The marketing organization wants to build on past knowledge. As a result, past marketing plans and results from past market research studies are stored in a file cabinet in the marketing department. The firm has a showcase in the lobby to display the various design awards earned. The firm is assessing the possibility of hiring a part-time college student to scan the documents electronically.
Sales Database
The company has 15 – 20 major customers, including a government contract for fans. The firm has 12 minor customers. Each member of the sales force maintains his/her own set of customer records using a variety of tools. Some sales team members use paper and pencil, others sales management software such as Act, and others a hybrid. In order to better understand and anticipate customer needs, the firm is evaluating a new integrated customer management system to accompany the new team selling approach that will be soon rolled out.
Production Records
The production plan maintains records of the number of units produced of each item by shift, which can be rolled up to the product group and year.
Profit and Loss Statements by Item and Group
The marketing department, with the support of the finance and production departments, maintains profit and loss statements, by item and by group.
Marketing Budget
The firm has historical and current annual budget allocations for marketing communications and marketing research.
Marketing Communications activities include:
· Sales force promotions
· Price / volume discounts to key accounts
· Public relations
· Brand development
· Tradeshows, events, and sponsorships
· Customer user group underwriting
· Literature and other collateral material
Marketing Research expenditures include:
· Market size / opportunity studies
· Customer focus groups
· Brand development research
Marketing Budget Anticipated Results
.
Unit 8 - Information and Communication Technology (Paper I).pdfThiyagu K
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How to Create Map Views in the Odoo 17 ERPCeline George
The map views are useful for providing a geographical representation of data. They allow users to visualize and analyze the data in a more intuitive manner.
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.
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Students, digital devices and success - Andreas Schleicher - 27 May 2024..pptxEduSkills OECD
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GIÁO ÁN DẠY THÊM (KẾ HOẠCH BÀI BUỔI 2) - TIẾNG ANH 8 GLOBAL SUCCESS (2 CỘT) N...
Sample Action Research Report 1 Effect of Technol.docx
1. Sample Action Research Report 1
Effect of Technology on Enthusiasm for Learning Science
Jane L. Hollis
Lake City Middle School
Lake City, Florida
ABSTRACT
The effect of technology on students’ enthusiasm for learning
science (both at school and
away from school) was investigated. Pre- and post-student and
parent surveys, student and
parent written comments, and teacher observations were used to
record changes in enthusi-
asm for learning science during a six-week study period.
In this study, I investigated how the integration of technology
into my middle school
science curriculum would impact my students’ enthusiasm for
learning science. Enthusiasm
for learning science can be defined as the students’ eagerness to
participate in science activi-
ties in the classroom, as well as away from school. My
motivation for focusing on technol-
ogy was twofold. First, I have had an interest in integrating
2. technology into my students’
studies of science for some time. Secondly, the funding for
technological equipment and
software recently became available. During the 1993–1994
school year, my school was
awarded a $115,000 incentive grant to purchase equipment and
software and to train
teachers in the use of this software and technological
equipment. One of the stipulations of
the grant was that the equipment and software must be for
student use.
According to Calvert (1994), American education is a system
searching for solutions.
Our children drop out, fail to sustain interest in learning, and
perform below capacity. Some
have argued that television is the culprit. Others have argued
that computers may be the
answer.
Today’s middle school students have grown up in a
technological world with television,
electronic toys, video games, VCRs, cellular phones, and more.
They are accustomed to
receiving and processing information through multi-sensory
sources.
I wanted to bring technology into my classroom and incorporate
it into my science
curriculum using multimedia computer presentations. Barbara
ten Brink (1993) noted, “. . .
students look to us [teachers] to prepare them for an
increasingly technological world.
Fortunately, with videodiscs, we are meeting the challenge by
delivering curriculums in
ways that engage, motivate, and thrill our students.” In this
3. study my students had an
opportunity to use assorted multimedia technology as they
explored a segment of a middle
school science curriculum.
THEORETICAL FRAMEWORKS
Learning is an extremely complex human process. During my
twenty-four years of teaching
I have used many strategies to enhance student learning and to
teach new concepts. I am still
not convinced that I thoroughly understand how children learn.
Yet, at this point, I do
believe children learn through experiences. They build on past
experiences and previous
knowledge to process new concepts. As children redefine old
understandings of concepts
and integrate new experiences into their old concepts, they
mature in their knowledge and
understanding.
In their early experiences of the world pupils develop ideas
which enable them to make
sense of the things that happen around them. They bring these
informal ideas into the class-
room, and the aim of science education is to give more
explanatory power so that their ideas
can become useful concepts (National Curriculum Council,
1989).
In a discussion in “Discovery, Enquiry, Interaction,
Constructive Learning—What’s the
4. Difference?” Harlen (1993) suggested that there is no single
solution to the complex matter
of education. According to Harlen, the objectives of learning
are various and so should be
the approaches to teaching. A combination of approaches is
often the most effective
education.
As a teacher I cannot assume that I am the giver of knowledge. I
can only be confident
in knowing that I am the facilitator of understanding, the
presenter of an opportunity to
explore, discover, and compile knowledge. A student’s
willingness to learn and his/her
enthusiasm for discovering knowledge and developing
understanding will dictate the level
of student learning.
Students need to be actively involved in their education.
Interested and enthusiastic
students are more willing learners, and I believe willing
learners become active participants
in their own instruction. As children become more actively
involved in their learning, they
develop interest and enthusiasm for the content and/or the
process that is their conduit for
acquiring new knowledge.
Through this study I hoped to find that multimedia technology
would be the conduit
that my students needed to acquire new knowledge, develop new
concepts, and express
strong understanding. Through the integration of multimedia
computer software I hoped to
tap the enthusiasm of my students towards learning science and
make them active
5. participants in their own instruction.
THE STUDY
I teach eighth grade, comprehensive science (an integrated life,
earth/space, and physical
science program) at a middle school in a rural North Florida
county. I am a member of a
four-teacher team, along with one math, one history, and one
language arts teacher. We
instruct 130 students who make up the academic team (Team E).
Although I teach five
science classes a day, I targeted my seventh period class for my
research.
This class is made up of thirty-one average and above-average
science students. I chose
this last class of the day for purely logistical reasons. With only
one computer in my class-
room, I needed to borrow eleven computers daily from
neighboring teachers. Seventh period
was the most agreeable period to the other teachers. An extra
advantage of using the last
period of the day was that students could return the computers
after the final dismissal bell
and not take valuable class time for this task.
My data was generated by comparing these students’ attitudes
toward learning science
at the beginning of the school year, during my study, and at the
conclusion of the study
period. The students’ attitudes and reactions were documented
6. by the students themselves,
by their parents, and by my own observations. Collecting data
from three sources allowed
for triangulation of the findings in this study. Data triangulation
helped reduce the
likelihood of error in the findings when similar results are
reported from two or more of the
sources. I surveyed all of the class members and their parents at
the beginning and the end
of my study.
During the first six weeks of school, I reviewed the scientific
method, the metric
system, scientific measurement, and laboratory safety. At this
point multimedia technology
was not part of the curriculum. Some hands-on activities were
used at this time. The
students worked both individually and in groups. To determine
each student’s level of
enthusiasm for learning science, during this time I administered
a survey which contained
the following questions: How do you like learning science?
How have you liked learning
science so far this year? How enthusiastic are you about
exploring science at home?
Students were asked to rate their answers to each question using
a scale of 1 to 5. The scale
was represented by (1) a very unenthusiastic response, (2) an
unenthusiastic response, (3)
indifference, (4) an enthusiastic response, and (5) a very
enthusiastic response.
Additionally, I sent home parent surveys with each student in
order to solicit and record
the parents’ opinions concerning their child’s enthusiasm for
learning science. The survey
7. included two questions: How enthusiastic is your child about
learning science? How
enthusiastically does your child do science activities at home? I
used the same rating scale
for the parents that I used with the students.
At the beginning of the second six weeks I introduced a unit on
oceanography.
Oceanography was used as the unit of study primarily because
of the number of resource
materials available to the students through the media center. It
was during this unit that I
began to integrate technology into my curriculum. As the unit
was introduced I asked my
students to look through the oceanography chapters in their
textbooks and make a prioritized
list of the eleven subtopics in physical and biological
oceanography they would like to
study. Students were grouped according to their interest as
much as possible and were
assigned to work in groups of two or three to develop a
multimedia presentation that would
be used as an instructional tool for the other students.
During this period I began to introduce them to the multimedia
computer program,
HyperStudio (Wagner, 1994). HyperStudio is a program that
allows the user to combine
sound, graphics, and animation with text to make creative and
entertaining presentations.
The introduction of HyperStudio and the development of the
student presentations took six
weeks to complete.
8. Throughout the study I observed and made notes as to how the
students were working
and their reactions to class. These observations were guided by
several questions: What
problems are the students encountering as they work on their
multimedia presentations? Are
the students having problems with content? Are there problems
working in groups? Are they
having problems using the multimedia software? These
observations and notes were useful
in making sense of any fluctuations I found in the end-of-study
student surveys. I was able
to discern the source of problems so that content difficulties or
friction within groups was
not confused with a loss of enthusiasm for technology.
At the end of the oceanography unit I had each group of
students share their
presentations with the rest of the class. After the presentations,
each group was asked to
comment to the class on how they enjoyed developing their
works. I noted these student
comments as they were presented to the class. Each student was
also asked to make written,
individual comments to me, responding to the following
questions: What problems did you
encounter while you were developing your presentation? What
did you learn about your
topic while you were developing your presentations? Did you
learn from the other students’
presentations? Would you like to do another presentation on
some other topic in science?
Again I surveyed the parents of these students to gain
information about their child’s
interest in learning science. I asked the following questions: Is
your child talking about
9. science at home? Is your child eager to share what we are doing
and learning in science
class? Do you feel that your child is learning science? Why or
why not? How enthusiastic is
your child about learning science? How enthusiastically is your
child doing science
activities at home? I again surveyed the students asking the
same questions that I had asked
in the beginning survey.
RESULTS
As I watched and listened to my students during the study, it
was apparent very early that
they were thoroughly enjoying using computers and developing
their presentations. Students
rushed to class, eager to get started on their presentations.
There were no tardies to class
during the study period, while there had been fourteen tardies to
class in the month before
the study period. Normally these students would ask to pack up
their things three to five
minutes before the end-of-the-day bell sounded. During the
study period I had to insist that
they stop work, and often they ignored me and worked through
the dismissal bell. Several
times a week students would ask to stay after school and work
on the computers. One group
worked for an hour and a half after school and would have
stayed longer, but I had to go
lock up for the day.
10. Twenty-eight of the thirty-one members of the class responded
to the pre- and post-
study surveys. One member of the class withdrew from school
during the study period, and
two students did not return their surveys.
The pre- and post-study attitudinal surveys show an increase in
my students’
enthusiasm for learning science (see Table 1 on the following
page). In the pre-study survey,
75% of the students were enthusiastic or very enthusiastic about
learning science, while the
post-study survey showed 96% of the students enthusiastic or
very enthusiastic about
learning science. When the students were asked how
enthusiastic they were about doing
science away from school, their responses showed a decrease in
enthusiasm for learning
science away from school after the study as compared to pre-
study data. On the pre-study
survey, 49% of the students were enthusiastic or very
enthusiastic about doing science away
from school, while only 28% of the students were enthusiastic
or very enthusiastic on the
post-project survey. Students’ comments on the post-study
survey concerning their
diminished enthusiasm for learning science away from school
centered around the lack of
availability of computers and software at home. Only eight
students had access to a
computer at home, and only one student actually had the
HyperStudio computer program to
use at home.
When the students were asked how they had liked learning
science so far this year, their
11. responses again showed an increase in enthusiasm for learning
science. On the pre-study
survey, 70% of the students were enthusiastic or very
enthusiastic about learning science
during the first half of their eighth grade year, while 81% of the
students were enthusiastic
on the post-study survey.
The students were questioned before and after the study about
their likes and dislikes
while learning science this year in an attempt to determine the
impact that the topic of
oceanography had on their enthusiasm for learning science
during the study. The students’
responses all centered around the method of instruction rather
than the curriculum. Their
responses made reference to lectures, note taking, group work,
projects, lab work, using
computers, etc. Since the students did not mention content in
their likes or dislikes, I do not
think the topic used during this study had a significant effect on
the results of this study.
The increased enthusiasm of my students was made apparent
during the study through
two separate incidents. The first incident occurred during the
second week of the study.
Seven of my students missed class one day a week to participate
in a gifted program. These
students told the teacher of the gifted program that they did not
want to miss class while
they were working on a computer presentation. However, these
students were not allowed to
miss gifted class and were very unhappy.
The second incident occurred during the sixth week of the
12. study. The entire student
body was being rewarded with an incentive assembly. They
were allowed to watch or
participate in a student versus faculty basketball game instead
of attending sixth and seventh
period. Seventeen of my students in the seventh period study
group asked for permission to
miss the incentive assembly and spend the two hours in science
class working on their
computer presentations.
Enthusiasm for learning science was also reflected in student
comments during and
after the study. Some of these comments were as follows:
• “Everyone gets into the topic more when they use
HyperStudio.”
• “It’s creative and it is fun.”
• “It’s a lot more fun working on a computer than in a book.”
• “You get to make friends with people and learn what they
know. It’s a different
way of teaching and I think it keeps our attention better.”
• “I think anyone could benefit from studying a topic in science
by developing a
multimedia presentation.”
• “It is like doing book work but fun.”
• “I enjoyed doing the multimedia presentation. I feel it was
very helpful and fun
13. at the same time but educational.”
• “It was a fun learning experience.”
• “Computers are millions of times more fun than book work.”
• “Using books gets boring, but you can learn by computers at
the same time if
working on them.”
• “There is so much you can learn off computers that you just
can’t from books.”
• “With books it gets boring after a while, but with computers
it’s fun and
exciting. Computers make learning fun.”
• “I find it very interesting to work on computers. It makes me
think a lot.”
• “It made me enjoy looking up information for my
presentation.”
Parents were surveyed before and after the study. The same ten
parents completed and
returned both the pre-study and post-study survey. The parent
surveys (see Table 2) showed
that 60% of the parents considered their children enthusiastic or
very enthusiastic about
learning science both before and after the study. These surveys
did show that 20% of the
parents felt that their children were unenthusiastic about
learning science before the study,
while none of the parents recorded their child as being
unenthusiastic about learning science
14. after the study. When asked how enthusiastic their child was
about doing science activities
at home, 40% of the parents noted that their children were
enthusiastic or very enthusiastic
about doing science activities at home on the pre-project
survey. On the post-project survey,
60% of the parents reported that their child was enthusiastic or
very enthusiastic about doing
science activities at home.
Several parents added comments to their post-project surveys.
Their comments were as
follows:
• “I feel the more ‘high tech’ the equipment, the more important
the subject will be
to the students. If they think science is ‘cool,’ because the
equipment they use is
‘cool,’ then more learning will take place and interest will
remain high.”
• “As our society is becoming more computer dependent our
students need an
early start.”
• “Hands on is fine, but they need the basics too. We also need
to have more
computers in the classroom to be effective.”
• “It seems to generate more enthusiasm for science and
learning.”
• “My daughter talked more about science during the use of
computers.”
15. DISCUSSION
My findings show a marked difference in the opinions of the
parents as compared to the
opinions of the students. The parents perceived no change in the
enthusiasm for learning
science, while the students noted a 21% increase in enthusiasm
for learning science. The
parents recorded a 20% increase in enthusiasm for doing science
activities away from
school, while the students recorded a 21% decrease in away
from school science activities.
The differences between parent results and student results could
be a reflection of the
communication gap between parents and students of this age.
The parents equated the
increase in conversations about science and planning of
presentations that their children
were doing at home with increased enthusiasm. The students on
the other hand were
enthusiastic about working with the computers but did not
consider their conversations at
home and their planning of presentations actually “doing
science activities.” They indicated
instead a frustration about not having more access to computers
and software to “do
science” at home.
The results of this study support the notion that the level of
enthusiasm for learning
science was increased through the incorporation of computers
and multimedia software into
16. the middle school science curriculum. The integration of
technology will be an ongoing
pursuit in my classroom. The enthusiasm it brought to my
students has been infectious.
Students and parents of students in my other four classes have
asked when they would have
an opportunity to work with computers. Teachers throughout the
school have become
interested in integrating technology into their curriculum.
Through the insistence of my
coworkers, I have taught two HyperStudio training sessions for
twenty-one teachers and
teacher aides from all academic disciplines as well as areas such
as special education and
the media center. Seventeen of my study group students
volunteered to assist me with these
teacher training sessions.
I believe that multimedia computer technology could enhance
all of the core curricula.
In English, it could be used to illustrate creative writing
assignments. Social studies classes
could use multimedia to develop geography or history
presentations. One of my study group
students used HyperStudio to develop an award-winning math
fair project. Adding
enthusiasm to learning in any discipline through the use of
technology is limited only by the
ability of a school to provide funding for the equipment,
adequate software, and teacher
training. The availability of equipment when doing class
projects involving technology is
critical.
17. This active research study was made possible through the
cooperation of my fellow
teachers. By borrowing computers from neighboring classrooms,
each group of students that
developed a presentation had a computer to use throughout the
study period. Ideally,
computers and software should be made available to students
and teachers for check-out and
use at home as well as at school through the school’s media
center. The difficulties
encountered in this study (all of which involved the logistics of
accessing the equipment
needed) were far outweighed by the academic benefit to my
students.
This active research study not only increased my students’
enthusiasm for learning
science, but it also rekindled my excitement for teaching.
During the prestudy period, I was
extremely apprehensive and began to question the feasibility of
the study. Once I began,
however, I found myself looking forward to the hectic pace and
the commotion that resulted
from eleven groups of middle school students using sound,
animation, and graphics to
develop multimedia computer presentations.
REFERENCES
Calvert, S. (1994). Children’s attentional involvement and
distractibility during educational
computer interactions. Journal of Educational Technology
Systems, 22(3), 251–257.
18. Harlen, W. (1993). The teaching of science. London: David
Fulton Publishers.
HyperStudio, Roger Wagner Publishing Co. Inc. El Cajon, CA.
1994.
National Curriculum Council. (1989). Science: Non-statutory
guidance. York, England:
NCC.
ten Brink, B. (1993). New frontiers with science videodiscs.
Educational Leadership, 50(8),
42–43.
From “Effect of Technology on Enthusiasm for Learning
Science” by J. Hollis (1995), in S. Spiegel, A. Collins, & J.
Lappert (Eds.), Action Research: Perspectives from Teachers’
Classrooms. Science FEAT (Science For Early Adolescence
Teachers). Tallahassee, FL: SouthEastern Regional Vision for
Education. Retrieved October 20, 2004, from
http://www.enc.org/professional/learn/research/journal/science/
document.shtm?input=ENC-002432-2432_ch1. Reprinted
with permission.
http://www.enc.org/professional/learn/research/journal/science/
document.shtm?input=ENC-002432-2432_ch1