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INTRODUCTION TO ENGINEERING

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Title: INTRODUCTION TO ENGINEERING


1
INTRODUCTION TO ENGINEERING
  • FEG 300
  • Douglas Daley
  • SUNY ESF

The scientist seeks to understand what is. The
Engineer seeks to CREATE what never was.
-Theodore von Karman
2
What is Engineering?1
  • The creative process of applying
  • Scientific and mathematic principles
  • Experience
  • Judgement / Common sense
  • To address a need (problem)
  • That results in a new product, process or system

3
What is an Engineer?
4
What is an Engineer?
  • Educated
  • Licensed/registered professional
  • Problem Solver/Designer addresses societys needs
  • Creative Individual (intuitive)
  • Applies science
  • Uses design process
  • Team member/leader
  • Decides and recommends
  • Draws and specifies
  • Has technical expertise and experience
  • Evaluates alternative solutions based on
    reliability, cost, manufacturability, ergonomics
    and marketability

5
Engineer vs. Technologist1
  • Technologist
  • Shares theoretical background with engineer
  • Practical experience in application,
    implementation, sales of engineers design
  • Engineer
  • Develops conceptual design
  • Research and application of scientific concepts
  • Design of new products and systems

6
Engineering a Profession6
  • What is a Profession?
  • Education high academic standards
  • Regulated/Licensed
  • Code of Conduct
  • Public Service, Public Benefit, Public Trust
  • Continuing Education and Experience
  • Personal Responsibility, Judgement, Discretion
  • Intellectual, Competent, Confident

7
Engineering Education - Formalized
  • United States Military Academy (founded 1802).
    Superintendent Sylvanus Thayer made civil
    engineering the foundation of the curriculum
    between 1817 and 1833. The first civil
    engineering program in the U.S.
  • Rensselaer Polytechnic Institute (founded 1824)
    for the purpose of instructing persons, who may
    choose to apply themselves, in the application of
    science to the common purposes of life."

8
Education ABET Program Criteria5
  • Engineering programs must demonstrate that their
    graduates have
  • (a) an ability to apply knowledge of mathematics,
    science, and engineering
  • (b) an ability to design and conduct experiments,
    as well as to analyze and interpret data
  • (c) an ability to design a system, component, or
    process to meet desired needs
  • (d) an ability to function on multi-disciplinary
    teams
  • (e) an ability to identify, formulate, and solve
    engineering problems

9
ABET Program Criteria (contd)
  • (f) an understanding of professional and ethical
    responsibility
  • (g) an ability to communicate effectively
  • (h) the broad education necessary to understand
    the impact of engineering solutions in a global
  • and societal context
  • (i) a recognition of the need for, and an ability
    to engage in life-long learning
  • (j) a knowledge of contemporary issues
  • (k) an ability to use the techniques, skills, and
    modern engineering tools necessary for
    engineering practice.

10
Professional Registration
  • Required in fields involving public safety
  • State evaluates education and experience and
    administers standard examinations
  • Graduate from a 4 year EAC (ABET) accredited
    engineering program
  • Pass Fundamentals of Engineering (FE) exam
  • Gain 4 years of professional experience
  • Pass Principles and Practice of Engineering exam

11
NSPE Code of Ethics for Engineers Engineers'
Creed
As a Professional Engineer, I dedicate my
professional knowledge and skill to the
advancement and betterment of human welfare. I
pledge To give the utmost of performance To
participate in none but honest enterprise To
live and work according to the laws of man and
the highest standards of professional conduct
To place service before profit, the honor and
standing of the profession before personal
advantage, and the public welfare above all other
considerations. In humility and with need for
Divine Guidance, I make this pledge. Adopted by
National Society of Professional Engineers, June
1954 Accessed at http//www.heimer.com/frameset/of
fsite.asp?urlhttp//www.nspe.org/ August 2002
12
Application of Engineering Experience
  • Historically, engineering was largely empirical,
    using experience to create new advances
    technology (a.k.a. trial and error or tinkering)
  • Engineering allowed cultural and societal
    advances to occur
  • Water Supply (Hydraulics) Egyptian irrigation,
    Roman aqueducts, Dutch windmills, canals
  • Commerce (Navigation) English Longitude Act 1714
  • overcome economic losses due to lost ships
    foundering
  • technological limitations in material science
  • John Harrison awarded prize for chronometer
    (development and trials 1715 - 1764)

13
Cultural Advancement Ancient 3,4
  • Society needed water for industry and growth
  • Civil/Structural Engineering
  • Clockwise from top left
  • Pont du Gard - Nimes (Fr)
  • Segovia (Spain)
  • Moselle (Fr)
  • Merida (Spain)

14
Engineering and the Public Health
  • Great Plague (summer 1665) killed over 60,000
    London residents
  • Sewage Disposal/Treatment (Paris, London - 1860s,
    Blue Plains 2002 - 370 MGD)
  • Water Closet, promoted by T. Crapper
    http//www.thomas-crapper.com/history02.htm
  • Water Supply (Croton Aqueduct - 1842 - 35 MGD -
    New York - Current 1512 MGD)
  • Waste Disposal (11,000 TPD - Fresh Kills Landfill)

15
Interstate and Defense Highway System
  • http//www.fhwa.dot.gov/infrastructure/rw96j.htm

16
Dams Water Supply, Power, Flood Control
Glen Canyon Dam
Grand Coulee Dam
Hoover Dam
http//www.usbr.gov/lc/hooverdam/History/index.htm
l
http//www.canyon-country.com/lakepowell/gcdam.htm
http//users.owt.com/chubbard/gcdam/html/photos/..
/../highres/dam08.jpg
17
20th Centurys Greatest Engineering Achievements2
  • High Performance Materials
  • Nuclear Technologies
  • Laser and Fiber Optics
  • Petroleum and Petrochemical Technologies
  • Health Technologies
  • Household Appliances
  • Imaging Technologies
  • Internet
  • Space Exploration
  • Interstate Highways
  • Air Conditioning and Refrigeration
  • Telephone
  • Computers
  • Agricultural Mechanization
  • Radio and Television
  • Electronics
  • Safe and Abundant Water
  • Airplane
  • Automobile
  • Electrification

18
Breakthrough Technologies
  • Biotechnology
  • Nanotechnology
  • Materials Science and Photonics
  • Information and Communications Technology
  • Logistics

NAE. The Engineer of 2020. National Academy of
Sciences. 2004.
19
Continuing Challenges
  • Physical Urban Infrastructure
  • Highways, bridges, tunnels, power
  • Information and Communication
  • Environment
  • Sustainable development, Green Engineering,
    energy, clean water
  • Aging population

20
Failure Design, Construction, Operation, or
Maintenance?
http//www.cnn.com/2007/US/08/09/bridge.collapse.a
p/index.htmlcnnSTCPhoto
21
Space Shuttle Challenger Design Failure
http//images.jsc.nasa.gov/search/search.cgi?selec
tionsSTS51LbrowsepageGokeywordsnullpageno38
hitsperpage5
22
Hyatt Regency Walkway Collapse
Design/Construction Process Failure
http//ethics.tamu.edu/ethics/hyatt/hyatt2.htm
23
Professional Context for Engineers in the Future
  • Systems perspective
  • Integrate components
  • Multidisciplinary teams work on complex projects
  • Flexibility, receptive to change, mutual respect,
    global markets
  • Complexity
  • Integrate social elements into systems analysis
  • Customerization
  • Public policy
  • Business, military, health
  • Public understanding of engineering and
    technology
  • Potential or unintended dangers

24
Attributes of the Engineer in 2020
  • Strong analytical skills
  • Practical ingenuity
  • Creative
  • Effective communication
  • Business and management skills
  • High ethical standards
  • Dynamic, resilient, flexible, agile
  • Lifelong learner

25
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26
Characteristics of a Good Engineering Design
  • Works all the time (reliable)
  • Meets technical requirements
  • Meets cost requirements
  • Requires little or no maintenance
  • Is safe
  • Creates no ethical dilemma (moral/public/environme
    ntal health issue)

27
Application of Engineering Science Dynamics
Kinetics
  • Isaac Newton (1642- 1727)
  • First Law of Motion A particle will remain at
    rest or in motion at a constant velocity unless
    an unbalanced external force acts on it
    (conservation of momentum).
  • Acceleration of a particle is directly
    proportional to the force acting on it and
    inversely proportional to the particle mass
    (Fma)
  • 1 Newton (force) (1 kg)(1 m/s2)

28
Application of Engineering Science
  • Fluid Mechanics
  • Hydraulic Systems (dams, jets, food)
  • Newtonian Fluids
  • Conservation of Matter and Energy
  • Thermodynamics
  • Heat force produces work
  • Power system analysis and design
  • Analysis by Newton relationships
  • First Law the work done by or on a system
    depends only on the end states

29
Engineering Education Forest Engineering at ESF
  • Botany, Physics, Chemistry, Calculus
  • Writing, Graphics, History, Fine Arts
  • Economics, Probability and Statistics,
    Management, Decision Analysis
  • Fluid Mechanics, Statics, Dynamics,
    Thermodynamics, Ecology, Dendrology
  • Hydrology and Hydraulics, Mechanics of Materials,
    Structures, Soil Mechanics
  • Surveying, Remote Sensing, Photogrammetry
  • Transportation Systems, Water Pollution, Design
    Elective

30
Citations
  • 1. American Society of Engineering Education.
    Engineering Your Future. Web site accessed
    August 14, 2002 at http//www.asee.org/precollege/
    welcome.cfm
  • 2. National Academy of Engineering. Greatest
    Engineering Achievements of the 20th Century.
    http//www.greatachievements.org/greatachievements
    /
  • 3. Roman Aqueducts http//www.ac-nancy-metz.fr/ia5
    7/jussy/netsco/English/autre-aqu.htm
  • 4. UNSECO, Pont du Gard (Roman Aqueduct)
    http//whc.unesco.org/sites/344.htm
  • 5. Accreditation Board for Engineering and
    Technology, Inc., Engineering Accreditation
    Commission, CRITERIA FOR ACCREDITING ENGINEERING
    PROGRAMS, 2002-2003, http//www.abet.org/images/Cr
    iteria/2002-03EACCriteria.pdf, August 2002
  • 6. Cottingham, J. Richard. Should all engineers
    be licensed? National Society of Professional
    Engineers. http//www.nspe.org/lc1-cottingham.asp.
    August 2001

31
Citations (contd)
  • 7. New York City Department of Sanitation, About
    Fresh Kills Landfill http//www.nyc.gov/html/dcp/h
    tml/fkl/ada/about/1_0.html, August 16, 2002
  • 8. DC Water and Sewer Authority. Blue Plains
    AWTP. Washington, D.C. http//www.dcwasa.com/defau
    lt.cfm, August 16, 2002
  • The Croton Aqueduct. http//www.nyhistory.org/sene
    ca/croton.html
  • New York City Department of Environmental
    Protection. New York City's Water Supply System -
    History. http//www.nyc.gov/html/dep/html/history.
    html
  • Rensselaer Polytechnic Institute. History.
    http//www.rpi.edu/About/Welcome/history.html.
    August 16, 2002
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