English
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Industrial Engineering (5 years)
Career accredited by Act Nro 391 CONEAU of 12/16/13
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PROFESSIONAL PROFILE OF THE GRADUATE:
The academic career of Industrial Engineering aims to train professionals that are capable of working in organizational management functions, development, operations and in production environments, taking into account the local, regional, national and global contexts, incorporating creativity and innovation to develop solutions and implementing with ethical and humanistic sense in order to preserve the environmental and cultural heritage.
Its graduates are trained to implement, evaluate, organize and lead productive systems and operational areas, using different techniques, human resources, materials, equipment, machinery and infrastructure, with the aim of administering the goods and services as well as economic order in the productive enterprises that aim to meet societal needs.
These engineers are expected to be able to link the productive, economic, administrative skills and market sectors, communicate properly with economists, engineers and business managers (among other professionals) and also may lead requirements of engineering.
PLAN OF STUDY
|
year |
Module |
code |
Subject |
Weekly Hours |
Total Hours |
Regular Correlative |
|
1º |
I |
101 |
5 |
75 |
- |
|
|
102 |
Mathematical Analysis I |
5 |
75 |
- |
||
|
103 |
Systems of Representation I |
5 |
75 |
- |
||
|
104 |
Informatics |
4 |
60 |
- |
||
|
105 |
Physics I |
5 |
75 |
- |
||
|
II |
201 |
Lineal Algebra |
6 |
90 |
101, 102 |
|
|
202 |
Mathematic Analysis II |
6 |
90 |
101,102 |
||
|
203 |
Physics II |
6 |
90 |
101,102,105 |
||
|
204 |
Chemistry |
5 |
75 |
- |
||
|
2º |
III |
301 |
athematic Analysis III |
7 |
105 |
201,202 |
|
302 |
FPhysics III |
8 |
120 |
202,203 |
||
|
303 |
Probability and Stadistic |
4 |
60 |
201 |
||
|
304 |
Systems Theory and Organizations |
5 |
75 |
104 |
||
|
305 |
Proficiency examination of English Language |
|
60 |
- |
||
|
IV |
401 |
Applied Mathematics |
8 |
120 |
301 |
|
|
402 |
Industrial organization I |
6 |
90 |
304 |
||
|
403 |
statics |
6 |
90 |
103,203 |
||
|
404 |
Systems of Representation II |
5 |
75 |
103 |
||
|
3º |
V
|
501 |
thermodynamics |
6 |
90 |
203 |
|
502 |
Electrotechnology General |
6 |
90 |
302,401 |
||
|
503 |
Resistance and Materials Testing |
6 |
90 |
403 |
||
|
504 |
economy |
6 |
90 |
303,304 |
||
|
VI |
601 |
Industrial Materials |
5 |
75 |
204 |
|
|
602 |
Industrial organization II |
6 |
90 |
402 |
||
|
603 |
Mechanisms and Machine Elements |
6 |
90 |
503 |
||
|
604 |
Fluid mechanics models |
6 |
90 |
401 |
||
|
4º |
VII |
701 |
Mechanical Technology |
6 |
90 |
601,603 |
|
702 |
Operational Research |
6 |
90 |
303,402 |
||
|
703 |
Thermal and hydraulic machines |
6 |
90 |
501,604 |
||
|
704 |
Business Economics |
6 |
90 |
504 |
||
|
VIII |
801 |
Machinery and electrical installations |
6 |
90 |
502 |
|
|
802 |
Industrial Hygiene and Safety |
6 |
90 |
602 |
||
|
803 |
Quality management |
5 |
75 |
602 |
||
|
804 |
Process control |
6 |
90 |
502,602 |
||
|
5º |
IX |
901 |
Legislation and Environmental Management |
6 |
90 |
802 |
|
902 |
Industrial facilities |
6 |
90 |
604,701,801 |
||
|
903 |
Formulation and evaluation of projects |
6 |
90 |
704 |
||
|
904 |
optional I |
6 |
90 |
Nota (*) |
||
|
X |
1001 |
optionalII |
6 |
90 |
Note(*) |
|
|
1002 |
optional III |
6 |
90 |
Note(*) |
||
|
1003 |
Supervised Professional Practice |
- |
200 |
Note(*) |
||
|
1004 |
Proyect of Engineering |
- |
200 |
Note(*) |
||
|
- |
- |
- |
TOTAL |
- |
3850 |
|