Program Outcomes |
(a) | An ability to apply knowledge of mathematics, science, and engineering appropriate to the degree discipline; |
(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 within realistic constraints, such as economic, environmental, social, political, ethical, health and safety, manufacturability and sustainability; |
(d) | An ability to function on multi-disciplinary teams; |
(e) | An ability to identify, formulate, and solve engineering problems; |
(f) | An ability to understand professional and ethical responsibility; |
(g) | An ability to communicate effectively; |
(h) | An ability to understand the impact of engineering solutions in a global and societal context, especially the importance of health, safety and environmental considerations to both workers and the general public; |
(i) | A ability to stay abreast of contemporary issues; |
(j) | An ability to recognize the need for, and to engage in life-long learning; |
(k) | An ability to use the techniques, skills, and modern engineering tools necessary for engineering practice appropriate to the degree discipline; |
(l) | An ability to use the computer/IT tools relevant to the discipline along with an understanding of their processes and limitations. |
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Programme Outcomes |
Course |
a |
b |
c |
d |
e |
f |
g |
h |
i |
j |
k |
l |
Major Courses |
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CHEM112 General Chemistry |
T |
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TP |
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T |
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MATB110 Calculus I |
T |
|
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MATB120 Calculus II |
T |
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PHYS120 Physics I |
T |
|
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T |
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EMEB110 Engineering Drawing I |
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TP |
|
|
T |
TP |
|
EMEB111 Program Design for Engineers |
T |
|
TP |
|
P |
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TP |
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TP |
EMEB120 Engineering Drawing II |
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TP |
|
|
T |
TP |
TM |
EMEB121 Engineering Materials |
T |
PM |
|
|
T |
|
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T |
TM |
TM |
PM |
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EMEB122 Statics |
T |
|
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T |
|
T |
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EMEB210 Strength of Materials |
T |
PM |
T |
|
T |
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TM |
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TP |
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EMEB211 Thermodynamics |
TPM |
|
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TP |
|
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TP |
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EMEB212 Manufacturing Technology |
T |
T |
|
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TP |
TP |
T |
|
TPM |
|
EMEB213 Electrical Engineering |
TP |
TP |
T |
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TM |
|
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TM |
TP |
EMEB220 Dynamics |
TM |
T |
T |
|
TPM |
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|
T |
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TP |
EMEB221 Computer-aided Design |
T |
|
TPM |
|
T |
|
PM |
|
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T |
PM |
EMEB222 Machine Elements |
T |
|
TPM |
PM |
P |
TM |
TP |
TP |
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PM |
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EMEB223 Mechatronics |
T |
TP |
T |
|
T |
TM |
|
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TM |
TM |
T |
|
MATB210 Engineering Mathematics I |
T |
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MATB220 Engineering Mathematics II |
T |
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PHYS210 Physics II |
T |
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T |
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EMEB310 Production Management |
T |
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PM |
PM |
T |
TM |
PM |
TM |
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TP |
EMEB311 Fluid Mechanics |
T |
PM |
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|
TM |
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EMEB312 Control Engineering |
TM |
TP |
T |
|
TM |
|
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TM |
EMEB320 Heat Transfer |
TM |
P |
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TM |
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T |
EMEB321 Computer Engineering |
TP |
TM |
|
TM |
|
|
TM |
|
TM |
TM |
|
TM |
EMEB410 Design Project |
P |
P |
PM |
PM |
P |
TM |
PM |
TM |
PM |
PM |
P |
P |
T – TEACH (T in bold means the teaching for the outcome starts from 2015/2016)
P – PRACTICE (P in bold means the practice for the outcome starts from 2015/2016)
M – MEASURED (M in bold means the outcome measurement starts from 2015/2016)
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