1. WHAT IS AN ENGINEER?

2. Scientists discover the world that exists; engineers create the world that never was." - Theodore Von Karman aerospace engineering

3. SCIENCE vs. ENGINEERING
Analysis: ask questions, look for patterns, develop knowledge
Produce knowledge
Characteristic activity: research ( learn about nature)
Study of what is
Tryscience.org
taken from “ Engineering: How is it related to Science ,Technology, math, and Society?” – Dr. Alexander Flueck. Illinois Institute of Technology
ENGINEERING
Synthesis: integrate bits of knowledge to create something new
Produce processes and things (part of technology)
Characteristic activity: creative design
Study of what never was
Tryengineering.org

4. What are Some Types of Engineering?
Just as science is divided into separate fields such as biology, chemistry and physics, engineering is divided into a variety of disciplines. The five largest engineering disciplines are chemical, civil, electrical, industrial and mechanical. Engineers within all of these disciplines can work in product-oriented companies, government, or academia.

5. Aerospace Engineering Aerospace engineers design, analyze, model, simulate, and test aircraft, spacecraft, satellites, missiles, and rockets. Aerospace technology also extends to many other applications of objects moving within gases or liquids. Examples are golf balls, high-speed trains, hydrofoil ships, or tall buildings in the wind. Aerospace engineers are typically specialists in fields with fancy names such as aerodynamics, propulsion, navigation, flight testing, and more.
Biomedical Engineering This is an interdisciplinary field combining mechanical, electrical, and chemical engineering to study the human body. Biomedical Engineers study biology and medicine to develop technologies related to health care. They develop medical diagnostic machines, medical instruments, artificial organs, joint replacement parts, and prosthetic devices.

6. Chemical Engineering Chemical Engineers use their knowledge of physics, chemistry, and biology to discover and manufacture better plastics, paints, fuels, fibers, medicines, fertilizers, semiconductors, paper, and all other kinds of chemicals, by carrying out chemical reactions and purifications.
Civil Engineering The design and construction of buildings, dams, water treatment and carrying systems, air pollution controls, and transportation systems are the responsibilities of civil engineers.  Subheadings of civil engineering include:  geotechnical, environmental, structural, transportation, materials, and project management.

7. Computer Science and Engineering Computer scientists and engineers are involved in the development of both hardware and software for computers. They work on computer-related systems like CD-ROMs, modems and monitors, as well as cutting-edge projects including robotics and virtual reality systems.
Environmental Engineering Keeping the water, air and soil healthy are the responsibilities of environmental engineers. To accomplish this goal they deal with issues including waste management, pollution control and irrigation.
Electrical Engineering Electrical engineering deals with electricity, magnetism, and light and how it is used. Electrical engineers are found in a variety of companies including the computer, communications, and automotive industries.

8. Mechanical Engineering Engineers within this discipline tend to focus on one of three aspects of mechanical engineering; design, manufacturing, or energy/power. Cars, airplanes and toys are just a few of the areas in which mechanical engineers work. 
Petroleum Engineering Petroleum engineers study the earth to find oil and gas reservoirs. They design oil wells, storage tanks, and transportation systems. They supervise the construction and operation of oil and gas fields. Petroleum engineers are researching new technologies to allow more oil and gas to be extracted from each well. They help supply the world's need for energy and chemical raw materials.
Taken from: 
and

9. FAQ’S How much do Engineers make???
Well, let's start out by stating that money should never be the only factor for choosing a career. What if you end up hating your job?!?! Even if you're well paid, remember that money can't buy happiness!
discoverengineering.org

10. 2005 survey by the National Association of Colleges and Employers.
Curriculum
Bachelor's
Master's
Ph.D.
Aerospace/aeronautical/astronautical
$50,993
$62,930
$72,529
Agricultural
46,172
53,022
Bioengineering & biomedical
48,503
59,667
Chemical
53,813
57,260
79,591
Civil
43,679
48,050
59,625
Computer
52,464
60,354
69,625
Electrical/electronics & communications
51,888
64,416
80,206
Environmental/environmental health
47,384
Industrial/manufacturing
49,567
56,561
85,000
Materials
50,982
Mechanical
50,236
59,880
68,299
Mining & mineral
48,643
Nuclear
51,182
58,814
Petroleum
61,516
58,000

11. FAQ’S What hours do engineers work?
Most engineers work weekdays, Monday through Friday. That's what some people would call a 'day job'. Typically they work from 8 to 10 hours per day. There are some companies that have very flexible work schedules such that their engineers come in for some 8-hour period during the day (say from 6 p.m. to 2 a.m.)! Sometimes engineers work at a job site where something is happening 24 hours a day and they work a 'shift' schedule. Usually these assignments are temporary, such as for a new plant startup.
discoverengineering.org

12. FAQ’S How long do engineers have to go to school?
Engineers need a minimum of a college Bachelor's degree. That means they must finish high school and typically four years of college. A few engineering programs take five years. A college degree could take longer if you only attend college part time or perhaps attend during evenings.
discoverengineering.org

13. FAQ’S How can I become an engineer?
First you will need a college degree. After that, many engineers seek a Professional Engineer (P.E.) license. It helps to begin preparations for all this at the middle school levels. Where possible, choose a well-rounded mix of classes with emphasis on math and science. Taken from discoverengineering.org

14. QUESTIONS?
If you have further questions regarding becoming an engineer please visit

15. DO YOU REMEMBER THIS DAY????

23. IF YOU GUESSED 9/11 – YOU’RE WRONG
These are images from the 2003 NorthAmerican Blackout
a massive power outage occurred throughout parts of the northeastern United States and eastern Canada on Thursday, August 14, It was the largest blackout in North American history. It affected an estimated 10 million people in the Canadian province of Ontario (about one-third of the population of Canada), and 40 million people in eight U.S. states (about one-seventh of the population of the U.S.). Outage-related financial losses were estimated at $6 billion USD.

24. Population of Major Cities affected at a glance City
Number of people affected
NYC
21,100,000
Toronto
5,600,000
Detroit
5,400,000
Cleveland
2,900,000
Ottawa
780,000 of 1,120,000*
Buffalo
1,100,000
Rochester
1,050,000
Hamilton
680,000
London
350,000
Toledo
310,000
Windsor
208,000
Estimated Total [5] (
50,000,000
Effects

25. So HOW did this happen and more importantly how can we keep this from happening again?
These are exactly the type of problems engineers work to solve.
HOMEWORK: Answer the following
What is the power grid? How is it organized? What causes the power grid to fail during a blackout?