PROGRAMME OUTCOMES
1. An ability to apply knowledge of mathematics and science in identifying,
formulating and solving engineering problems.
2. An ability to understand the application of drafting software to prepare
mechanical engineering drawings and as well as to read, analyze and interpret
drawings.
3. An ability to analysis and 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.
4. An ability to trouble shooting techniques (Maintenance and servicing of
various machines) and evaluate operational performance.
5. An ability to understand the quality control and assurance of raw materials
and finished products.
6. An ability to understand the concepts of organisation structure and
management in terms of performance and productivity quality control and
assurance of raw materials and finished products.
7. Ability to understand material handling and its processes including recent
trends.
8. Ability to understand fluid power, thermal power and concept in design &
drawing of various machine elements including shop floor drawing.
9. An ability to articulate and communicate ideas persuasively and effectively
both in written and oral.
10. An ability to work effectively as an individual and in a team.
11. An ability to understand and work with professional and ethical
responsibility.
12. An ability to recognize the need for to engage in life-long learning and
updating the knowledge in contemporary issues.
�DIPLOMA IN MECHANICAL ENGINEERING EDUCATIONAL OBJECTIVES AND OUTCOMES
Programme Educational Objectives (PEOs)
Programme Objective 1
To prepare diplomats who will create new ways to meet societys needs with their knowledge of
Mechanical Engineering.
Programme Objective 2
To enable the students to support the Engineers in designs and analysis of Mechanical systems.
Programme Objective 3
To create flexible atmosphere that promotes creativity and innovation among students and faculty
which encourages professional ethics and lifelong learning.
Programme Objective 4
To equip students with a sound foundation in the mathematical, scientific and engineering
fundamentals necessary to formulate, solve, analyze problems to prepare them for further studies.
Programme Objective 5
To enhance the technical supervisory skills of students to troubleshoot problems arising in modern
industries.
Programme Objective 6
To develop the right attitude and aptitude among students to deal with advancement of technology
and demanding society.
�SUBJECTS OF STUDY AND SCHEME OF EVALUATION
Semester I
(Programme: Mechanical Engineering)
Sl.
No.
Code
Course
category
Course
Periods per week
Theory Practical
Total
Credits
Type
Evaluation
CA
External
English for Communication I
50
100
Engineering Mathematics I
50
100
Engineering Physics I
50
100
Engineering Chemistry I
50
100
Health & Physical Education
50
50
Engineering Graphics
Work Shop Practice
Computing Fundamentals
50
50
Engineering Science Lab
19
16
35
21
300
500
Total
Abbreviations used:
Course Categories: F Foundation Courses, C-Common Courses, B-Basic Technology Courses,
A Applied Technology Courses, E Elective Courses.
Evaluation Type: T Theory, P Practical, D Drawing, Pr Project.
�SUBJECTS OF STUDY AND SCHEME OF EVALUATION
Semester II
(Programme: Mechanical Engineering)
Sl.
No.
Code
Course
category
Course
Periods per week
Theory Practical
Total
Credits
Type
Evaluation
CA
External
English for Communication II
50
100
Engineering Mathematics II
50
100
Engineering Physics II
50
100
Engineering Chemistry II
50
100
Basic Mechanical Engineering
50
100
Engineering Graphics
50
100
Workshop Practice
50
50
Engineering Science Lab
50
50
Basic Mechanical Engineering
Lab.
50
50
10
Life Skills
50
50
20
15
35
34
500
800
Total
Abbreviations used:
Course Categories: F Foundation Courses, C-Common Courses, B-Basic Technology Courses,
A Applied Technology Courses, E Elective Courses.
Evaluation Type: T Theory, P Practical, D Drawing, Pr Project
�SUBJECTS OF STUDY AND SCHEME OF EVALUATION
Semester III
(Programme: Mechanical Engineering)
Sl.
No.
Code
Course
category
Course
Periods per week
Theory Practical
Total
Credits
Type
Evaluation
CA
External
Environmental Science. &
Disaster Management
50
100
Electrical & Electronics Engg.
50
100
Manufacturing Process
50
100
Fluid Mechanics &
Pneumatics
50
100
Machine Drawing
50
100
Workshop Practice - III
50
50
Fluid Mechanics Lab
50
50
Electrical Technology Lab
50
50
20
15
35
29
400
650
Total
Abbreviations used:
Course Categories: F Foundation Courses, C-Common Courses, B-Basic Technology Courses,
A Applied Technology Courses, E Elective Courses.
Evaluation Type: T Theory, P Practical, D Drawing, Pr Project
�SUBJECTS OF STUDY AND SCHEME OF EVALUATION
Semester IV
(Programme: Mechanical Engineering)
Sl.
No.
Code
Course
category
Course
Periods per week
Theory Practical
Total
Credits
Type
Evaluation
CA
External
Metallurgy & Machine Tools
50
100
Automobile Engineering
50
100
Applied Mechanics &
Strength of Materials
50
100
Thermal Engineering
50
100
Production Drawing
50
100
Workshop Practice-IV &
Mini Project
50
50
Material Testing Lab
50
50
Heat Engines Lab
50
50
20
15
35
31
400
650
Total
Abbreviations used:
Course Categories
Evaluation Type
: F Foundation Courses, C Common Courses, B Basic Technology Courses,
A Applied Technology Courses, E Elective Courses.
: T Theory, P Practical, D Drawing, Pr Project.
�SUBJECTS OF STUDY AND SCHEME OF EVALUATION
Semester V
(Programme: Mechanical Engineering)
Sl.
No.
Code
Course
category
Course
Periods per week
Theory Practical
Total
Credits
Type
Evaluation
CA
External
Industrial Management &
Safety
50
100
Design of Machine Elements
50
100
Industrial Engineering
50
100
50
100
50
50
50
50
Power Plant Engineering/
Alternate Energy sources &
Management/ Material
Handling
Industrial Maintenance
&Servicing Lab
Machine shop Practice
CADD lab-I
50
50
Project work and Seminar
Pr
Pr
Industrial Training/ Visit/
Collaborative work
10days
10days
50
18
17
35
25
400
550
Total
*This course can be conveniently scheduled by the colleges during semester term.
Abbreviations used:
Course Categories: F- Foundation Courses, C Common Courses, B Basic Technology Courses, A Applied Technology Courses, E Elective
Course.
Evaluation Type: T Theory, P Practical, D Drawing, Pr Project.
�SUBJECTS OF STUDY AND SCHEME OF EVALUATION
Semester VI
(Programme: Mechanical Engineering)
Sl.
No.
Code
Course
category
Course
Periods per week
Theory Practical
Total
Credits
Type
Evaluation
CA
External
Hydraulic Machines
50
100
Advanced Production
Processes.
50
100
Refrigeration & Air
Conditioning
50
100
Industrial Automation &
Mechatronics/ CAD-CAM/
Maintenance Engineering.
50
100
CADD Lab-II
50
50
Advanced Machine Tool Lab
50
50
Hydraulic Machines and fluid
power lab
50
50
Project work and Seminar
Pr
10
Pr
50*
50*
20
15
35
35
400
600
Total
Abbreviations used:
Course Categories: F Foundation Courses, C-Common Courses, B-Basic Technology
Courses, A Applied Technology Courses, E Elective Courses.
Evaluation Type: T Theory, P Practical, D Drawing, Pr Project. *Indicate 40 marks for Project & 10 marks for seminar.
