Transcript Slide 1

An Introduction to Mechanical Engineering, 3rd Edition
Wickert & Lewis
Chapter 3:
Technical
ProblemSolving
© 2013 Cengage Learning Engineering.
All Rights Reserved.
Chapter 3 Lesson Objectives
• Be able to explain engineering ethics.
• Explain the meaning of engineering
codes.
• Consider the Challenger Disaster as an
example of engineering ethics.
• Demonstrate proper engineering
communication.
Introduction to Engineering
Ethics
Why Learn Engineering Ethics?
BS in Mechanical Engineering
Technical Education
Workplace
Dilemmas
5
Technical
Choices
Ethics &
Morality
Preparation
Personal
Conflicts
Define Ethics, Engineering Ethics,
& Morality
 Morals: Right vs. Wrong / Good vs. Bad
 Ethics: Activity of understanding moral
values
o Resolution of moral issues
 Engineering Ethics: Incorporating moral
values considering all issues involved
o Frequently no easy answer
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An Engineer’s Responsibilities
Family,
Upbringing,
Personal Values
& Ethics
Firm:
Engineers,
Managers,
Colleagues
Industry, Other
Firms
Global Environment,
Society, & Nature
Engineering
Profession
Law, Government,
Public Agencies
Clients or
Consumers
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We Each Bring Something Different to
the Table
Objectivity
People
Skills
History
Emotion
Culture
Background
Upbringing
Expertise
Experience
Problem
Solving
Skills
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Consider One Example: The Hanford
Green Run
o Late 1940’s – Hanford Site Center of Plutonium
Production
o Iodine 131 – Byproduct of Plutonium Production
o Air Force needed to test viability of new radiation
monitoring system
o Dec 2nd & 3rd 1949 “The Green Run”
o Not disclosed until 1986
From a George Washington University Analysis
(http://www.gwu.edu/~nsarchiv/radiation/dir/mstreet/commeet/meet8/brief8/tab_
h/br8h7.txt)
… In the Green Run, the value of national security seems to have trumped other
ethical concerns. In addition, if today's environmental regulations were in place
in 1949 they could have been circumvented by the executive branch. We can
ask whether the Green Run should have happened, but perhaps more
importantly, we should ask whether current regulations provide sufficient
protection against analogous cases in the future
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Professional Codes of Ethics
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What Defines a Professional?
• Advanced Expertise – skills and
knowledge
• Formal Education – not just practical
training and/or apprenticeship
• Self-Regulation – setting standards,
drafting codes of ethics, enforcing
these
• Representing Profession before the
public and government
• Public Good – occupation serves some
aspect of public good.
Consider how this defines Mechanical Engineering
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National Society of Professional
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
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Source: http://www.nspe.org/Ethics/CodeofEthics/Creed/creed.html
Risk & Liability in Engineering
Source: www.readin.com
On September 11, 2001, terrorists attacked the Twin Towers
by flying two hijacked 727’s into them. Each jet impacted
approximately 2/3 of the way up.
The resulting fire, fueled by high-octane aviation gas,
isolated more than 2000 workers in the floors above the
impact. Only 18 of these workers made it to safety, while in
contrast almost all of the workers in the floors below
escaped.
In the hour following the crashes, the intense heat (above
1000F) caused the steel floor beams in each tower to sag.
The floor structures broke away from the external vertical
load-bearing beams. As the floors fell, they created loads
the lower floors could not support. As a result, the towers
collapsed.
Question 1
How could this
structural
failure
happened?
Question 2
Why did
building codes
not better
protect the
public?
Question 3
How can we
prevent such a
disaster in the
future?
What about acceptable risk and our approach to
that risk as engineers?
The Engineer’s Approach to Risk
To assess a risk – an engineer must
first identify it
To identify a risk – an engineer
must first understand the risk
What constitutes a risk to an
engineer?
Communicating Risk – an Engineer’s
Responsibility
Be clear – risk  probability of harm
Be careful saying there is no such thing as zero risk – not easily
understood
Be aware public does not always trust experts – acknowledge
limitations
Government has obligation to protect public. It is not always about
cost-benefit approach
Be objective and listen to all sides
Consider the Space Shuttle Challenger
"The future is not free: the story of all
human progress is one of a struggle
against all odds. We learned again that this
America, which Abraham Lincoln called the
last, best hope of man on Earth, was built
on heroism and noble sacrifice. It was built
by men and women like our seven star
voyagers, who answered a call beyond
duty, who gave more than was expected or
required and who gave it little thought of
worldly reward."
-
President Ronald Reagan
January 31, 1986
CNN Video
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Communication!
Wide variety
of
audiences
Multiple
levels
Engineering
is social
Effective
Communication
Written Communication
• Format
• Audience
• Spell check, grammar check, cultural
check, flow check
• Professionalism!
Oral Communication
•
•
•
•
•
Professionalism
Presence
Preparation
Technical Content and Clarity
Practice!