Bachelor Degree: B.E. Mechanical Engineering

For B.E. First degree program, a student must fulfill the following requirements:

-Discipline Core Courses - 48 units (16 Courses min.)

-Discipline Electives - 12 units (4 Courses)

-Open Electives - 15 units (5 Courses)

-Humanities Electives – 8 units (3 Courses)

-Practice School I - 5 units

-Practice School II/Thesis - 20/16 units

Semester I	Semester II
BITS F110 Engineering Graphics	MATH F112 Mathematics II
BIO F110 Biology Laboratory	ME F112 Workshop Practice
BIO F111 General Biology	CS F111 Computer Programming
CHEM F110 Chemistry Laboratory	EEE F111 Electrical Sciences
CHEM F111 General Chemistry	BITS F112 Technical Report Writing
MATH F111 Mathematics I	MATH F113 Probability and Statistics
PHY F110 Physics Laboratory	BITS F111 Thermodynamics
PHY F111 Mechanics, Oscillations and Waves

Semester III	Semester IV
MATH F211 Mathematics III	ECON F211 Principles of Economics or MGTS F211 Principles of Management
Humanities Electives	Humanities Electives
ME F211 Mechanics of Solids	ME F218 Advanced Mechanics of Solids
ME F212 Fluid Mechanics	ME F219 Manufacturing Processes
ME F213 Material Science & Engineering	ME F220 Heat Transfer
ME F217 Applied Thermodynamics	ME F221 Mechanisms and Machines
BITS F225 Environmental Studies

Semester V	Semester VI
Open/Humanities Electives	Open/Humanities Electives
ME F314 Design of Machine Elements	ME F318 Computer Aided Design
ME F315 Advanced Manufacturing Processes	ME F319 Vibrations & Control
ME F316 Manufacturing Management	ME F320 Engineering Optimization
ME F317 Engines, Motors, and Mobility	ME F341 Prime Movers & Fluid Machines
Discipline Electives	Discipline Electives

Semester VII	Semester VIII
Open Electives	Practice School-II or
Discipline Electives	Thesis or Thesis with Electives

Disciplinary Electives

AN F311 Principles of Aerodynamics
AN F312 Aircraft Propulsion
AN F313 Flight Mechanics and Controls
AN F314 Introduction to Flight
AN F315 Aircraft Structures
BITS F327 Artificial Intelligence for Robotics
BITS F415 Introduction to MEMS
DE G513 Tribology
DE G514 Fracture Mechanics
DE G531 Product Design
ECE F242 Control Systems
ECON F411 Project Appraisal
INSTR F242 Control Systems (INSTR)
MATH F313 Numerical Analysis
ME F340 Introduction to Sports Engineering
ME F411 Fluid Power Systems
ME F413 Nonlinear Vibrations
ME F414 Fuel Cell Science and Technology
ME F415 Gas Dynamics
ME F416 Reverse Engineering and Rapid Prototyping
ME F417 Advanced Metal Forming
ME F418 Rocket and Spacecraft Propulsion
ME F419 Total Product Integration Engg.
ME F420 Power Plant Engineering
ME F423 Microfluidics and Applications
ME F424 Energy Management
ME F425 Additive Manufacturing
ME F426 Industry 4.0 in Manufacturing
ME F432 Computer Aided manufacturing
ME F433 Solar Thermal Process Engineering
ME F441 Automotive Vehicles
ME F443 Quality Control, Assurance and Reliability
ME F451 Mechanical Equipment Design
ME F452 Composite Materials & Design
ME F461 Refrigeration and Air conditioning
ME F472 Precision Engineering
ME F482 Combustion
ME F483 Wind Energy
ME F484 Automotive Technology
ME F485 Numerical Techniques for Fluid Flow and Heat Transfer
ME G511 Mechanism and Robotics
ME G512 Finite Element Methods
ME G514 Turbomachinery
ME G515 Computational Fluid Dynamics
ME G533 Conduction and Radiation Heat Transfer
ME G534 Convective Heat and Mass Transfer
MF F311 Mechatronics and Automation
MF F418 Lean Manufacturing
MF F421 Supply chain management
MF F485 Sustainable Manufacturing
MST G522 Advanced Composites

Integrated First Degree

Higher Degree

Doctoral Programmes

WILP

Dubai Campus

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Bachelor Degree: B.E. Mechanical Engineering

Bachelor Degree: B.E. Mechanical Engineering

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