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2001-2 |
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Assessment
Metric Summary |
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Calendar Year |
2002 |
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Outcome |
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Description |
Performance Objective 1 |
Performance Objective 2 |
Performance Objective 3 |
Performance Objective 4 |
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a |
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(a) Apply
knowledge of math, science, and engineering |
Proficient in
Fundamental Concepts and Skills |
Proficient in
Theoretical and Practical Relationships |
Proficient in Basic Science |
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Instrument
Average |
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#Totals/#Aves |
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4.00 |
3.75 |
4.50 |
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Max |
3.31 |
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156 |
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3.31 |
3.04 |
3.16 |
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Ave |
3.17 |
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13 |
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2.41 |
1.93 |
2.07 |
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Min |
3.04 |
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b |
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(b) Design
and Conduct experiments Analyze and interpret data and information |
Conducts the design of
experiments. |
Operates
equipment and collects data for analysis. |
Compares
results for experimental measurements to the literature and conducts
interpretation of results in written reports. |
Is
able to collect global information and to use this information in evaluation
and interpretation of laboratory data |
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Instrument
Average |
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#Totals/#Aves |
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5.00 |
4.33 |
5.00 |
4.33 |
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Max |
4.43 |
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114 |
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4.43 |
3.70 |
3.00 |
3.21 |
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Ave |
3.59 |
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10 |
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3.86 |
3.24 |
1.00 |
1.59 |
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Min |
3.00 |
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c |
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(c)
Optimally select material and design materials treatment and production
processes |
Understand the engineering
design process |
Formulate possible
engineering solutions |
Master the
iterative process in engineering design |
Recognize
and observe constraints in engineering design |
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Instrument
Average |
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#Totals/#Aves |
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4.00 |
4.33 |
5.00 |
4.60 |
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Max |
5.00 |
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44 |
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3.70 |
3.87 |
5.00 |
4.47 |
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Ave |
4.26 |
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8 |
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3.40 |
3.40 |
5.00 |
4.33 |
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Min |
3.70 |
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d |
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(d)
Function well on teams |
Responsible Participation |
Interaction
Skills |
Assimilation and Receptiveness
Skills |
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Instrument
Average |
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#Totals/#Aves |
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4.67 |
4.67 |
5.00 |
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Max |
4.64 |
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69 |
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4.64 |
4.48 |
3.99 |
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Ave |
4.37 |
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9 |
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4.60 |
4.17 |
3.17 |
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Min |
3.99 |
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e |
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(e)
Identify, formulate, and solve engineering problems |
Identify |
Formulate |
Solve |
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Instrument
Average |
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#Totals/#Aves |
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4.00 |
4.67 |
4.37 |
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Max |
4.13 |
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123 |
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3.89 |
4.13 |
3.51 |
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Ave |
3.84 |
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10 |
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3.74 |
3.77 |
2.04 |
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Min |
3.51 |
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f |
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(f) Know
professional and ethical responsibilities and practices |
Carries
out responsibilities in a professional and ethical manner |
Understands
basic engineering principles and practices, in terms of professional ethics
and behavior |
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Instrument
Average |
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#Totals/#Aves |
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4.67 |
5.00 |
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Max |
4.23 |
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36 |
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4.23 |
3.36 |
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Ave |
3.79 |
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6 |
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3.80 |
1.22 |
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Min |
3.36 |
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g |
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(g)
Communicate effectively |
The
content of the written or oral presentation is effective. |
The
organization of memorandum and technical reports is consistent with styles
accepted by the person’s primary professional engineering society. |
The
design of slides shows an understanding of vision limitation of the audience
and the total time the presenter plans to spend on the visual aid during oral
presentations. |
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Instrument
Average |
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#Totals/#Aves |
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4.60 |
5.00 |
4.33 |
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Max |
4.24 |
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84 |
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3.84 |
4.24 |
3.98 |
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Ave |
4.02 |
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14 |
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3.00 |
3.00 |
3.40 |
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Min |
3.84 |
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h |
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(h) Know
engineering's global societal context |
Has
the broad education necessary to understanding impact of engineering
solutions in global and societal context |
Awareness
of contemporary state of knowledge and relationship to engineering
solutions |
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Instrument
Average |
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#Totals/#Aves |
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4.00 |
4.67 |
4.67 |
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Max |
4.26 |
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70 |
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3.76 |
4.26 |
3.94 |
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Ave |
3.99 |
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9 |
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3.40 |
4.00 |
2.56 |
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Min |
3.76 |
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I |
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(i) Engage
in life-long learning |
Ability to adapt to
changing technology. |
Understanding
of the need to continually update one's skills and knowledge. |
Cognitive Level Assessment |
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Instrument
Average |
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#Totals/#Aves |
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4.33 |
5.00 |
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Max |
5.00 |
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12 |
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4.33 |
5.00 |
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Ave |
4.67 |
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2 |
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4.33 |
5.00 |
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Min |
4.33 |
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j |
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(j) Know
contemporary issues |
Ability
to identify basic problems and contemporary issues in engineering. |
Application
of knowledge of contemporary issues to Metallurgical Engineering |
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Instrument
Average |
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#Totals/#Aves |
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4.33 |
4.00 |
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Max |
4.17 |
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36 |
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4.17 |
3.92 |
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Ave |
4.04 |
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4 |
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4.00 |
3.83 |
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Min |
3.92 |
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k |
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(k) Use
engineering techniques, skills, and tools |
Capable
of using tools such as Excel, SolidWorks, MathCAD --- |
Proficient
in operating equipment used in the laboratory program such as the MTS
machine, rolling mill, hardness tester --- |
Understands
the engineering design method and can apply this method in developing
solutions to engineering problems. |
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Instrument
Average |
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#Totals/#Aves |
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4.64 |
4.67 |
4.00 |
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Max |
3.50 |
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69 |
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3.41 |
3.50 |
2.67 |
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Ave |
3.19 |
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12 |
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1.00 |
2.33 |
1.00 |
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Min |
2.67 |
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