1. The document provides an introduction to engineering, explaining that the essence of engineering is design which applies math, science and technology to solve problems and meet human needs.
2. Engineering design is both systematic and creative, and is an iterative process that explores many alternatives to achieve optimal solutions.
3. The document then discusses the definition of engineering, different engineering disciplines and careers, and provides an assignment for students to research a specific discipline.
Engineering is the application of scientific knowledge and mathematics to solve problems and design solutions that improve lives and benefit society. It involves using principles from various scientific fields like physics, chemistry, biology combined with design, business and other considerations to invent, innovate, build and maintain useful structures, machines, processes and systems. Some key aspects of engineering include identifying societal needs, designing and testing solutions, and producing things in a cost-effective manner to address those needs.
Engineering is the application of scientific and mathematical principles to practical ends such as the design, manufacture, and operation of efficient and economical structures, machines, processes, and systems. It involves designing solutions to technical problems, acquiring and applying technical, scientific, and mathematical knowledge to implement inventions for the benefit of society. The discipline has existed since ancient times as humans devised tools and inventions to solve problems, and the term "engineering" has evolved over centuries to encompass specialized fields that apply technology and science.
Engineers dream up creative solutions to invent, design, and create things that improve lives. There are many types of engineering careers including chemical, civil, electrical, and mechanical engineering with various specializations within each field. Engineering is an enjoyable and important career that pays well and allows people to make a difference through their work.
The Role of Engineers in Shaping the Modern World, presentation on Engineers Day by Dr S.M.Shashidhar, Chairman, The Institution of Engineers (India), Munirabad Local Centre.
Engineering involves the design, building, and use of machines, structures, and systems to solve problems and improve lives. It uses science, technology, and math to create new things. Engineers are creative problem solvers who turn ideas into realities and help shape the future. Engineering is relevant today because it drives innovation and supports the economy. Students gave examples of engineering like designing and building lamps. Engineering was described as working with mechanics, fixing things, and helping with everyday tasks through designed products and infrastructure. Teachers and others saw engineering as creative problem solving that has allowed humanity to travel, store food, and develop new technologies.
Engineering career presentation for middle schoolikfly2002
Engineering Week -like (aka Career Day) presentation targeted toward middle schoolers. This discusses what engineers do, similarity to inventors, famous inventors, a "make a sandwich" instructions exercise, and engineering career information.
1. The document provides an introduction to engineering, explaining that the essence of engineering is design which applies math, science and technology to solve problems and meet human needs.
2. Engineering design is both systematic and creative, and is an iterative process that explores many alternatives to achieve optimal solutions.
3. The document then discusses the definition of engineering, different engineering disciplines and careers, and provides an assignment for students to research a specific discipline.
Engineering is the application of scientific knowledge and mathematics to solve problems and design solutions that improve lives and benefit society. It involves using principles from various scientific fields like physics, chemistry, biology combined with design, business and other considerations to invent, innovate, build and maintain useful structures, machines, processes and systems. Some key aspects of engineering include identifying societal needs, designing and testing solutions, and producing things in a cost-effective manner to address those needs.
Engineering is the application of scientific and mathematical principles to practical ends such as the design, manufacture, and operation of efficient and economical structures, machines, processes, and systems. It involves designing solutions to technical problems, acquiring and applying technical, scientific, and mathematical knowledge to implement inventions for the benefit of society. The discipline has existed since ancient times as humans devised tools and inventions to solve problems, and the term "engineering" has evolved over centuries to encompass specialized fields that apply technology and science.
Engineers dream up creative solutions to invent, design, and create things that improve lives. There are many types of engineering careers including chemical, civil, electrical, and mechanical engineering with various specializations within each field. Engineering is an enjoyable and important career that pays well and allows people to make a difference through their work.
The Role of Engineers in Shaping the Modern World, presentation on Engineers Day by Dr S.M.Shashidhar, Chairman, The Institution of Engineers (India), Munirabad Local Centre.
Engineering involves the design, building, and use of machines, structures, and systems to solve problems and improve lives. It uses science, technology, and math to create new things. Engineers are creative problem solvers who turn ideas into realities and help shape the future. Engineering is relevant today because it drives innovation and supports the economy. Students gave examples of engineering like designing and building lamps. Engineering was described as working with mechanics, fixing things, and helping with everyday tasks through designed products and infrastructure. Teachers and others saw engineering as creative problem solving that has allowed humanity to travel, store food, and develop new technologies.
Engineering career presentation for middle schoolikfly2002
Engineering Week -like (aka Career Day) presentation targeted toward middle schoolers. This discusses what engineers do, similarity to inventors, famous inventors, a "make a sandwich" instructions exercise, and engineering career information.
This document provides an introduction and overview of technology and nanotechnology. It begins by welcoming the audience to Sootak since 2011 and introducing the chairman, Ezzeldin El-Shazli. It then discusses how technology has become integral to modern life. The document defines technical innovation, or technovation, as the development of new ideas and processes using technology. It provides several definitions of technology from different perspectives. The bulk of the document focuses on nanotechnology, defining it as the science dealing with structures on an atomic or molecular scale. It discusses pioneers in nanotechnology like Richard Feynman and inventors of the scanning tunneling microscope. In closing, it asks what would not be considered technology.
This document discusses nanotechnology and its applications. It defines nanotechnology as manipulating matter at the nanoscale (1-100 nanometers). It describes nanomaterials and different types of nanotechnology like nano-electronics. It discusses applications of nanomaterials in electronics, energy, materials and life sciences. It outlines advantages like stronger and lighter materials. Disadvantages include potential job losses and health risks. The future of nanotechnology is predicted to include faster computers, electronic paper and contact lenses. It concludes that nanotechnology will be part of future products and usher in a new industrial revolution.
Erin Lewis is an emerging Canadian artist who works in creative electronics, wearable technology, and sculpture/installation. She has a BFA in Integrated Media and Wearable Technology from OCADU. Her work has been shown internationally and she teaches wearable technology at OCADU and Interaccess Media Arts Centre.
Recent trends in engineering include increased automation and use of artificial intelligence (AI) which are transforming industries. Civil engineering trends focus on designing sustainable buildings and infrastructure projects. Specifically, AI is rapidly being applied to help solve serious challenges and avert crises by simulating human intelligence. Additionally, the growing Internet of Things (IoT) enables many connected devices and 'things' to share data over the internet. The document provides an overview of these current trends in engineering and how they are positively impacting lives through innovation.
Technology refers to the application of knowledge and tools to solve problems and serve human purposes. It includes engineering, machines, and techniques used in various fields like construction, medicine, and information technology. Major technological developments have lessened physical barriers and allowed humans to interact on a global scale, though technology has also enabled weapons and pollution with environmental impacts. Philosophical debates exist regarding technology's effects on humans and societies.
The document discusses design and invention, highlighting Leonardo da Vinci as a creative designer who lived in the 1400-1500s and sketched a variety of inventions including bridges, helicopters, and hang gliders. As an original designer, the reader is tasked with creating a flying machine inspired by da Vinci's designs and featuring original decoration.
Presented at the Cluj Innovation Days for Digital Medicine & Digital Governance Conference in 2016, this materials speaks about live, work and culture in our technology-driven era. And just as how the recent discovery of gravitational waves changed for ever the world of physics, digital governance will change for ever the human world.
Find a trusted future-ready partner for the next decade of your life.
Impact of Engineering and Technology in Changing the World ( Engineering Coll...MayaCollege
Ground- breaking ideas are at the core of what masterminds of the stylish engineering College in Dehradun do, and they use their information to make novel and exhilarating prospects and resolve any glitches that might arise.
History of Engineering
Essay about Civil Engineering
Essay on Mechanical Engineering
Essay about Career Profile: Engineering
A Successful Engineer Essay
Green Engineering Essay
The Career of Engineering Essay
Essay about software engineering
Civil Engineering Essay
Essay on Why I Want to be a Professional Engineer
Essay on Engineering Developments
Ethics in Engineering Essay
Architectural Engineer Essay
Essay on Biomedical Engineering
Industrial Engineering Essay
Scientists throughout history have made important discoveries and inventions that have transformed our lives and advanced our understanding of the world. The document profiles several famous scientists including Archimedes who discovered scientific principles like levers and pulleys, Thomas Edison who invented the light bulb and phonograph, Alexander Fleming who discovered penicillin, Albert Einstein who developed the theory of relativity and transformed concepts of space and time, and Leonardo Da Vinci who created early designs of airplanes, boats and other machines. These scientists spent countless hours in their work and research, advancing fields like mathematics, physics, medicine and engineering through their innovative thinking and discoveries.
Engineering has a long history dating back to ancient times. Early engineers worked on constructing pyramids and other large structures. Over time, engineering has evolved and different civilizations used it in various ways, such as the Greeks who developed machines for both public and military purposes. Modern engineering encompasses many disciplines and uses math and science principles to solve problems. Engineers must consider constraints like cost, safety, and technical limitations in their designs.
Streatham and Clapham High School - ApplicationGirls Into STEM
This document discusses engineering and different types of engineers. It defines engineering as applying scientific knowledge to invent, design, build and improve machines, structures and materials. An engineer is a professional who uses science, math and ingenuity in their work. There are many engineering fields such as civil, mechanical, electrical and computer engineering. The document also profiles several biomedical engineers who are developing artificial body parts like legs, heart pumps and lab-grown organs to help people with injuries or illnesses.
SEZINE is an annual magazine of Space Society of Mechanical Engineers (SSME),Published by SSME from Ahmedabad, Gujarat, INDIA. It's present chairman, is A R Srinivas, Scientist, Indian Space Research Organization, ISRO.
This document discusses technology and the technical project process. It explains how to take ideas and turn them into real things by drawing designs for clarity, using computers and software, selecting appropriate materials like wood and metal, incorporating structures and mechanisms for movement, and implementing electricity or energy for functions like light and autonomous motion. The document also notes the importance of considering how technologies may impact users and the environment. The overall message is that technology allows ideas to be developed and shared through building physical projects and digital communication.
Nanotechnology involves imaging, measuring, modeling and manipulating matter at the nanoscale of 1 to 100 nanometers. It utilizes unique properties of nanomaterials to develop new technologies across many fields like electronics, medicine and energy. While concepts of the nanoscale have long existed in nature, the term "nanotechnology" was coined in the 1970s. Pioneers like Feynman and Drexler envisioned manipulating individual atoms and warned of potential dangers. Milestones included the invention of nanoscale imaging tools like the STM and discoveries of novel nanomaterials like buckyballs. Nanotechnology is now ubiquitous with applications in diverse areas.
Nanotechnology involves imaging, measuring, modeling and manipulating matter at the nanoscale of 1 to 100 nanometers. At this scale, unique phenomena occur and enable novel applications. While concepts of the nanoscale have long existed in nature, the term "nanotechnology" was coined in the 1970s. Pioneers like Richard Feynman and K. Eric Drexler envisioned manipulating individual atoms and molecules to solve problems. Key developments included the invention of the scanning tunneling microscope in 1981 and the discovery of buckyballs in 1985, allowing visualization and study of nanomaterials. Nanotechnology now encompasses diverse fields from electronics to medicine to energy.
This document discusses the history and future of technology. It defines technology as the scientific study of craft and notes Archimedes as one of the first inventors to combine engineering and science. Past technology involved scientists conducting experiments and inventions with vintage uses. Present technology features continuous research built upon past experiments. Future technology will include ongoing research and inventions to further improve lives through simpler work, better transports, communication and medicine, though it may enable health issues or laziness if overused.
The document discusses the important role that engineers play in solving practical problems and innovating to improve people's lives. It provides examples of engineers who have made significant contributions, such as M. Visvesvaraya who helped develop irrigation systems to convert barren land into fertile farming areas, E. Sreedharan who helped build important infrastructure projects like the Konkan Railway and Delhi Metro, and Dr. A. P. Kalam who developed ballistic missiles and launch vehicles and is known as the "Missile Man of India". The document emphasizes that engineers imagine solutions to challenges, are found in many industries, and Indian engineers have started important companies and projects that are globally recognized.
Here, in this presentation you will get know about the different kinds of construction works which is involved in the interior designing field such as plumbing, Tiling, Gypsum partition, carpentry etc.
In this presentation you will get to learn about the pervious concrete -
What is pervious concrete
History
Need of pervious concrete
Mix design
Applications
Advantages
Disadvantages
This document provides an introduction and overview of technology and nanotechnology. It begins by welcoming the audience to Sootak since 2011 and introducing the chairman, Ezzeldin El-Shazli. It then discusses how technology has become integral to modern life. The document defines technical innovation, or technovation, as the development of new ideas and processes using technology. It provides several definitions of technology from different perspectives. The bulk of the document focuses on nanotechnology, defining it as the science dealing with structures on an atomic or molecular scale. It discusses pioneers in nanotechnology like Richard Feynman and inventors of the scanning tunneling microscope. In closing, it asks what would not be considered technology.
This document discusses nanotechnology and its applications. It defines nanotechnology as manipulating matter at the nanoscale (1-100 nanometers). It describes nanomaterials and different types of nanotechnology like nano-electronics. It discusses applications of nanomaterials in electronics, energy, materials and life sciences. It outlines advantages like stronger and lighter materials. Disadvantages include potential job losses and health risks. The future of nanotechnology is predicted to include faster computers, electronic paper and contact lenses. It concludes that nanotechnology will be part of future products and usher in a new industrial revolution.
Erin Lewis is an emerging Canadian artist who works in creative electronics, wearable technology, and sculpture/installation. She has a BFA in Integrated Media and Wearable Technology from OCADU. Her work has been shown internationally and she teaches wearable technology at OCADU and Interaccess Media Arts Centre.
Recent trends in engineering include increased automation and use of artificial intelligence (AI) which are transforming industries. Civil engineering trends focus on designing sustainable buildings and infrastructure projects. Specifically, AI is rapidly being applied to help solve serious challenges and avert crises by simulating human intelligence. Additionally, the growing Internet of Things (IoT) enables many connected devices and 'things' to share data over the internet. The document provides an overview of these current trends in engineering and how they are positively impacting lives through innovation.
Technology refers to the application of knowledge and tools to solve problems and serve human purposes. It includes engineering, machines, and techniques used in various fields like construction, medicine, and information technology. Major technological developments have lessened physical barriers and allowed humans to interact on a global scale, though technology has also enabled weapons and pollution with environmental impacts. Philosophical debates exist regarding technology's effects on humans and societies.
The document discusses design and invention, highlighting Leonardo da Vinci as a creative designer who lived in the 1400-1500s and sketched a variety of inventions including bridges, helicopters, and hang gliders. As an original designer, the reader is tasked with creating a flying machine inspired by da Vinci's designs and featuring original decoration.
Presented at the Cluj Innovation Days for Digital Medicine & Digital Governance Conference in 2016, this materials speaks about live, work and culture in our technology-driven era. And just as how the recent discovery of gravitational waves changed for ever the world of physics, digital governance will change for ever the human world.
Find a trusted future-ready partner for the next decade of your life.
Impact of Engineering and Technology in Changing the World ( Engineering Coll...MayaCollege
Ground- breaking ideas are at the core of what masterminds of the stylish engineering College in Dehradun do, and they use their information to make novel and exhilarating prospects and resolve any glitches that might arise.
History of Engineering
Essay about Civil Engineering
Essay on Mechanical Engineering
Essay about Career Profile: Engineering
A Successful Engineer Essay
Green Engineering Essay
The Career of Engineering Essay
Essay about software engineering
Civil Engineering Essay
Essay on Why I Want to be a Professional Engineer
Essay on Engineering Developments
Ethics in Engineering Essay
Architectural Engineer Essay
Essay on Biomedical Engineering
Industrial Engineering Essay
Scientists throughout history have made important discoveries and inventions that have transformed our lives and advanced our understanding of the world. The document profiles several famous scientists including Archimedes who discovered scientific principles like levers and pulleys, Thomas Edison who invented the light bulb and phonograph, Alexander Fleming who discovered penicillin, Albert Einstein who developed the theory of relativity and transformed concepts of space and time, and Leonardo Da Vinci who created early designs of airplanes, boats and other machines. These scientists spent countless hours in their work and research, advancing fields like mathematics, physics, medicine and engineering through their innovative thinking and discoveries.
Engineering has a long history dating back to ancient times. Early engineers worked on constructing pyramids and other large structures. Over time, engineering has evolved and different civilizations used it in various ways, such as the Greeks who developed machines for both public and military purposes. Modern engineering encompasses many disciplines and uses math and science principles to solve problems. Engineers must consider constraints like cost, safety, and technical limitations in their designs.
Streatham and Clapham High School - ApplicationGirls Into STEM
This document discusses engineering and different types of engineers. It defines engineering as applying scientific knowledge to invent, design, build and improve machines, structures and materials. An engineer is a professional who uses science, math and ingenuity in their work. There are many engineering fields such as civil, mechanical, electrical and computer engineering. The document also profiles several biomedical engineers who are developing artificial body parts like legs, heart pumps and lab-grown organs to help people with injuries or illnesses.
SEZINE is an annual magazine of Space Society of Mechanical Engineers (SSME),Published by SSME from Ahmedabad, Gujarat, INDIA. It's present chairman, is A R Srinivas, Scientist, Indian Space Research Organization, ISRO.
This document discusses technology and the technical project process. It explains how to take ideas and turn them into real things by drawing designs for clarity, using computers and software, selecting appropriate materials like wood and metal, incorporating structures and mechanisms for movement, and implementing electricity or energy for functions like light and autonomous motion. The document also notes the importance of considering how technologies may impact users and the environment. The overall message is that technology allows ideas to be developed and shared through building physical projects and digital communication.
Nanotechnology involves imaging, measuring, modeling and manipulating matter at the nanoscale of 1 to 100 nanometers. It utilizes unique properties of nanomaterials to develop new technologies across many fields like electronics, medicine and energy. While concepts of the nanoscale have long existed in nature, the term "nanotechnology" was coined in the 1970s. Pioneers like Feynman and Drexler envisioned manipulating individual atoms and warned of potential dangers. Milestones included the invention of nanoscale imaging tools like the STM and discoveries of novel nanomaterials like buckyballs. Nanotechnology is now ubiquitous with applications in diverse areas.
Nanotechnology involves imaging, measuring, modeling and manipulating matter at the nanoscale of 1 to 100 nanometers. At this scale, unique phenomena occur and enable novel applications. While concepts of the nanoscale have long existed in nature, the term "nanotechnology" was coined in the 1970s. Pioneers like Richard Feynman and K. Eric Drexler envisioned manipulating individual atoms and molecules to solve problems. Key developments included the invention of the scanning tunneling microscope in 1981 and the discovery of buckyballs in 1985, allowing visualization and study of nanomaterials. Nanotechnology now encompasses diverse fields from electronics to medicine to energy.
This document discusses the history and future of technology. It defines technology as the scientific study of craft and notes Archimedes as one of the first inventors to combine engineering and science. Past technology involved scientists conducting experiments and inventions with vintage uses. Present technology features continuous research built upon past experiments. Future technology will include ongoing research and inventions to further improve lives through simpler work, better transports, communication and medicine, though it may enable health issues or laziness if overused.
The document discusses the important role that engineers play in solving practical problems and innovating to improve people's lives. It provides examples of engineers who have made significant contributions, such as M. Visvesvaraya who helped develop irrigation systems to convert barren land into fertile farming areas, E. Sreedharan who helped build important infrastructure projects like the Konkan Railway and Delhi Metro, and Dr. A. P. Kalam who developed ballistic missiles and launch vehicles and is known as the "Missile Man of India". The document emphasizes that engineers imagine solutions to challenges, are found in many industries, and Indian engineers have started important companies and projects that are globally recognized.
Here, in this presentation you will get know about the different kinds of construction works which is involved in the interior designing field such as plumbing, Tiling, Gypsum partition, carpentry etc.
In this presentation you will get to learn about the pervious concrete -
What is pervious concrete
History
Need of pervious concrete
Mix design
Applications
Advantages
Disadvantages
Indus valley civilisation | Detail Analysis | Early civilisation MDZAFARHASIB
The document provides details about the Indus Valley Civilization:
(1) It developed over 5,000 years ago along the Indus River valley and extended throughout parts of modern day Pakistan and North India. (2) Important sites include Mohenjo-Daro, Harappa, and Dholavira, which had well-planned cities with drainage systems and baked brick homes. (3) The civilization began declining around 1900 BCE possibly due to environmental factors like drought or flooding.
The Stone Age | River Valley Civilisation MDZAFARHASIB
Here you will learn about the stone age and the rive valley civilisation . Why the early civilisation lived beside the river ? You will get to know all basic concept about history.
***Want video on this click below
https://youtu.be/r5WEHcLjRSs
Here you will learn about the basic of History and Prehistory which will eventually help you to grasp the things very quickly. Thank you
*** Want video on this topic click below
https://youtu.be/Z4UZ7OSv-Cw
Project report on municipal solid waste management MDZAFARHASIB
This document discusses municipal solid waste management in developing countries. It begins by defining municipal solid waste and providing an overview of the solid waste management scenario in developing nations like India. It then outlines the typical steps involved in solid waste management - collection, transportation, recycling, treatment and disposal. Specific technologies and methods used at each step are described. The document also reviews initiatives and technologies adopted in India for solid waste management. It concludes by discussing literature on the topic and characteristics of municipal solid waste.
This document discusses pervious concrete, including its history, composition, applications, advantages, and disadvantages. Pervious concrete is a type of concrete with high porosity that allows water to pass through, helping reduce runoff. It was first used in Europe in the 1800s and came to the US after WWII. It allows stormwater to soak into the ground rather than running off surfaces, reducing flooding and pollution. Pervious concrete is composed of cement, coarse aggregates with little fine aggregates, and water. It has a variety of applications like driveways, sidewalks, and parking areas. Advantages include reducing runoff and flooding, while disadvantages include needing maintenance to avoid clogging.
In this slide you will get the basic format of the CASE STUDY and the sample of a CASE STUDY. I hope it will help you to get the knowledge. It also helps you to write a CASE STUDY. You can Download it too for future use. THANK YOU
This document discusses types of air conditioners, factors to consider when choosing an AC unit, and AC components. It explains that window units and split units are common types, and that the cooling capacity in tons depends on room size. It also notes that more energy efficient inverter ACs and copper condenser coils are better options, and that installation, service, and after-sales support should be considered.
This is a project on Food System Management System. It is basically a PowerPoint Presentatiion which will help you to learn new things. Generally this project is given to the students of Nutrition and Dietician.
In the intricate tapestry of life, connections serve as the vibrant threads that weave together opportunities, experiences, and growth. Whether in personal or professional spheres, the ability to forge meaningful connections opens doors to a multitude of possibilities, propelling individuals toward success and fulfillment.
Eirini is an HR professional with strong passion for technology and semiconductors industry in particular. She started her career as a software recruiter in 2012, and developed an interest for business development, talent enablement and innovation which later got her setting up the concept of Software Community Management in ASML, and to Developer Relations today. She holds a bachelor degree in Lifelong Learning and an MBA specialised in Strategic Human Resources Management. She is a world citizen, having grown up in Greece, she studied and kickstarted her career in The Netherlands and can currently be found in Santa Clara, CA.
A Guide to a Winning Interview June 2024Bruce Bennett
This webinar is an in-depth review of the interview process. Preparation is a key element to acing an interview. Learn the best approaches from the initial phone screen to the face-to-face meeting with the hiring manager. You will hear great answers to several standard questions, including the dreaded “Tell Me About Yourself”.
Learnings from Successful Jobs SearchersBruce Bennett
Are you interested to know what actions help in a job search? This webinar is the summary of several individuals who discussed their job search journey for others to follow. You will learn there are common actions that helped them succeed in their quest for gainful employment.
Joyce M Sullivan, Founder & CEO of SocMediaFin, Inc. shares her "Five Questions - The Story of You", "Reflections - What Matters to You?" and "The Three Circle Exercise" to guide those evaluating what their next move may be in their careers.
We recently hosted the much-anticipated Community Skill Builders Workshop during our June online meeting. This event was a culmination of six months of listening to your feedback and crafting solutions to better support your PMI journey. Here’s a look back at what happened and the exciting developments that emerged from our collaborative efforts.
A Gathering of Minds
We were thrilled to see a diverse group of attendees, including local certified PMI trainers and both new and experienced members eager to contribute their perspectives. The workshop was structured into three dynamic discussion sessions, each led by our dedicated membership advocates.
Key Takeaways and Future Directions
The insights and feedback gathered from these discussions were invaluable. Here are some of the key takeaways and the steps we are taking to address them:
• Enhanced Resource Accessibility: We are working on a new, user-friendly resource page that will make it easier for members to access training materials and real-world application guides.
• Structured Mentorship Program: Plans are underway to launch a mentorship program that will connect members with experienced professionals for guidance and support.
• Increased Networking Opportunities: Expect to see more frequent and varied networking events, both virtual and in-person, to help you build connections and foster a sense of community.
Moving Forward
We are committed to turning your feedback into actionable solutions that enhance your PMI journey. This workshop was just the beginning. By actively participating and sharing your experiences, you have helped shape the future of our Chapter’s offerings.
Thank you to everyone who attended and contributed to the success of the Community Skill Builders Workshop. Your engagement and enthusiasm are what make our Chapter strong and vibrant. Stay tuned for updates on the new initiatives and opportunities to get involved. Together, we are building a community that supports and empowers each other on our PMI journeys.
Stay connected, stay engaged, and let’s continue to grow together!
About PMI Silver Spring Chapter
We are a branch of the Project Management Institute. We offer a platform for project management professionals in Silver Spring, MD, and the DC/Baltimore metro area. Monthly meetings facilitate networking, knowledge sharing, and professional development. For more, visit pmissc.org.
Success is often not achievable without facing and overcoming obstacles along the way. To reach our goals and achieve success, it is important to understand and resolve the obstacles that come in our way.
In this article, we will discuss the various obstacles that hinder success, strategies to overcome them, and examples of individuals who have successfully surmounted their obstacles.
2. Engineering is the application of
science to solve real-world problems.
Engineers are the ones who are
trained to do so.
The modern world that we live in is
quite impossible without them.
3. Engineering is a discipline dedicated to
problem solving. Our built environment and
infrastructure, the devices we use to
communicate, the processes that
manufacture our medicines, have all been
designed, assembled or managed by an
engineer.
4. The word engineer (Latin ingeniator) is derived
from the Latin words ingeniare ("to create,
generate, contrive, devise") and ingenium
("cleverness").
From Archimedes, who was a classical engineer to
Leonardo Da Vinci and Nikola Tesla to the modern
household name Elon Musk, engineers are shaping
the world.
5. DIFFERENT DISCIPLINES OF ENGINEERING
CIVIL ENGINEERING
MECHANICAL ENGINEERING
ELECTRICAL ENGINEERING
COMPUTER SCIENCE ENGINEERING
INFORMATION TECH. ENGINEERING
ELECTRONICS AND COMM. ENGINEERING
BIOMEDICAL ENGINEERING
AEROSPACE ENGINEERING
MARINE ENGINEERING
CHEMICAL ENGINEERING