Course Description

General Courses

1. Engineering Mechanics:

• Statics
  • Forces and equilibrium
  • Trusses and frames
  • Friction and centroids
• Dynamics
  • Kinematics and kinetics of particles
  • Newton’s laws of motion
  • Energy and momentum principles

Description: Develop a strong foundation in engineering mechanics, covering statics and dynamics principles essential for analyzing and solving engineering problems.

2. Materials Science and Engineering:

• Introduction to materials and their classifications
• Mechanical properties of materials
• Phase diagrams and material structures
• Heat treatment and material processing

Description: Gain an understanding of the properties and behavior of engineering materials, crucial for material selection and design considerations.

3. Numerical Methods:

• Root finding and optimization techniques
• Interpolation and curve fitting
• Numerical integration and differentiation
• Solution of linear and nonlinear systems of equations

Description: Learn numerical techniques to solve engineering problems that may not have analytical solutions, ensuring accurate and efficient computations.

4. Programming for Engineers:

• Introduction to programming concepts
• Programming in Python or MATLAB
• Data structures and algorithms
• Applications in engineering problem-solving

Description: Acquire programming skills using languages like Python or MATLAB, enabling you to automate tasks, analyze data, and solve engineering problems computationally.

5. Technical Drawing and Blueprint Reading:

• Basics of engineering drawing
• Orthographic and isometric projections
• Dimensioning and tolerancing
• Interpretation of engineering blueprints

Description: Master the skill of creating and interpreting technical drawings, an essential communication tool in engineering design and manufacturing.

6. Engineering Mathematics:

• Calculus
  • Limits, derivatives, and integrals
  • Multivariable calculus
• Differential Equations
  • Ordinary and partial differential equations
• Linear Algebra
  • Matrices, determinants, and eigenvalues

Description: Strengthen your mathematical foundation with topics in calculus, differential equations, and linear algebra relevant to engineering applications.

7. Project Management for Engineers:

• Introduction to project management principles
• Project planning and scheduling
• Resource allocation and risk management
• Monitoring and controlling project progress

Description: Equip yourself with project management skills to efficiently plan, execute, and complete engineering projects within time and budget constraints.

8. Product Lifecycle Management (PLM):

• Introduction to PLM concepts
• Product data management
• Collaboration and communication in PLM
• Integration of PLM in engineering processes

Description: Explore the lifecycle of a product from conception to disposal, emphasizing the role of PLM in managing data, collaboration, and efficiency throughout the product lifecycle.