Exam Details
| Subject | Optimization For Engineering Design | |
| Paper | ||
| Exam / Course | Diploma in Mechanical Engineering (DMEVI)& B.Tech. MECHANICAL ENGINEERING 1-4 (BTMEVI) | |
| Department | School of Engineering & Technology (SOET) | |
| Organization | indira gandhi national open university | |
| Position | ||
| Exam Date | June, 2016 | |
| City, State | new delhi, |
Question Paper
Discuss how optimization techniques are useful in executive decision making.
With the help a suitable example, explain the role of calculus in solving optimization problems.
2. Explain Genetic Algorithm with a neat flow chart and discuss the effect of various parameters involved in GA.
What is the role of optimization in Engineering Design Explain giving suitable examples.
Briefly explain the economic interpretation of a dual of LPP.
4. Solve the following Linear Programming Problem using Simplex method:
Maximize z 3x1 12x2
subject to
2x1 4x2 7
5x1 3x2 15
x1,x2 0 and are integers
Describe the typical characteristics of a constrained problem. Explain the direct and indirect methods for constrained optimization.
Explain the economical interpretation of a dual of Linear Programming Problem (LPP).
6. Solve the following integer linear programming problem:
Maximize z =4x1 x2
subject to
4x1 2x2 7
3x1 15
X1,x2 are non-negative integers.
7. Write short notes on any two of the following:
Golden Section Method
Goal Programming
Cutting Plane Method
With the help a suitable example, explain the role of calculus in solving optimization problems.
2. Explain Genetic Algorithm with a neat flow chart and discuss the effect of various parameters involved in GA.
What is the role of optimization in Engineering Design Explain giving suitable examples.
Briefly explain the economic interpretation of a dual of LPP.
4. Solve the following Linear Programming Problem using Simplex method:
Maximize z 3x1 12x2
subject to
2x1 4x2 7
5x1 3x2 15
x1,x2 0 and are integers
Describe the typical characteristics of a constrained problem. Explain the direct and indirect methods for constrained optimization.
Explain the economical interpretation of a dual of Linear Programming Problem (LPP).
6. Solve the following integer linear programming problem:
Maximize z =4x1 x2
subject to
4x1 2x2 7
3x1 15
X1,x2 are non-negative integers.
7. Write short notes on any two of the following:
Golden Section Method
Goal Programming
Cutting Plane Method
Other Question Papers
Departments
- Centre for Corporate Education, Training & Consultancy (CCETC)
- Centre for Corporate Education, Training & Consultancy (CCETC)
- National Centre for Disability Studies (NCDS)
- School of Agriculture (SOA)
- School of Computer and Information Sciences (SOCIS)
- School of Continuing Education (SOCE)
- School of Education (SOE)
- School of Engineering & Technology (SOET)
- School of Extension and Development Studies (SOEDS)
- School of Foreign Languages (SOFL)
- School of Gender Development Studies(SOGDS)
- School of Health Science (SOHS)
- School of Humanities (SOH)
- School of Interdisciplinary and Trans-Disciplinary Studies (SOITDS)
- School of Journalism and New Media Studies (SOJNMS)
- School of Law (SOL)
- School of Management Studies (SOMS)
- School of Performing Arts and Visual Arts (SOPVA)
- School of Performing Arts and Visual Arts(SOPVA)
- School of Sciences (SOS)
- School of Social Sciences (SOSS)
- School of Social Work (SOSW)
- School of Tourism & Hospitality Service Sectoral SOMS (SOTHSM)
- School of Tourism &Hospitality Service Sectoral SOMS (SOTHSSM)
- School of Translation Studies and Training (SOTST)
- School of Vocational Education and Training (SOVET)
- Staff Training & Research in Distance Education (STRIDE)
Subjects
- Advanced Dynamics Of Machine
- Automobile Engineering
- Combustion Engineering
- Computer Aided Manufacturing
- Computing Aided Design
- Design of Machine Elements
- Engineering Metallurgy
- Engineering Thermodynamics
- Experimental Stress Analysis
- Finite Element Analysis
- Fluid Mechanics
- Heat And Mass Transfer
- Heat Transfer
- I.C. Engines
- Industrial Engineering
- Industrial Ergonomics
- Industrial Measurement And Quality Control
- Industrial Organization And Management
- Kinematics and Dynamics of Machines
- Machine Design - I
- Machine Design-Ii
- Machine Drawing
- Machines Tools
- Maintenance Engineering
- Material Science
- Materials Handling
- Mechanical System Design
- Mechanical Vibration
- Mechanics Of Materials
- Mechatronics
- Metrology
- Metrology And Quality Control
- Non-Conventional Energy Resources
- Non-Destructive Testing
- Nuclear Power Engineering
- Optimisation Techniques In Engineering
- Optimization For Engineering Design
- Power Plant Engineering
- Power Transmitting Elements
- Product Development And Design
- Production And Operations Management
- Production Technology - Ii
- Production Technology-I
- Refrigeration And Air Conditioning
- Refrigeration System
- Robotics
- Safety Engineering
- Technical Entrepreneurship
- Thermal Engineering
- Thermal Engineering - I
- Thermofluid Engineering
- Total Quality Management (Tqm)
- Tribology
- Turbo Machines
- Unconventional Manufacturing Processes
- Welding Engg.