Mechanical Vibrations

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Overview Contents: Introduction: Overview of the course, practical applications and research trends,Harmonic and periodic motions, vibration terminology.

Control of Manufacturing Processes

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Overview Introduction Processes and Variation Framework - Semiconductor Process Variation - Mechanical Process Variation - Probability Models of Manufacturing Processes - Probability Models, Parameter Estimation, and Sampling - Sampling Distributions and Statistical Hypotheses

Engineering Fracture Mechanics

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Overview The course covers the basic aspects of Engineering Fracture Mechanics. Spectacular failures that triggered the birth of fracture mechanics, Modes of loading, Classification as LEFM and EPFM, Crack growth and fracture mechanisms, Energy release rate, Resistance, Griffith Theory of fracture,

Conduction and Radiation

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Overview Contents: Introduction, radiation from a black body: Introduction to three modes of heat transfer- conduction, convection and radiation. Importance of radiation, Mechanism of radiation,Electromagnetic spectrum. Concept of black body, derivation of black body radiation laws from first principles Planck's law, Stefan Boltzmann law, Wien's displacement law. Universal black body function, F function charts.

Computational Fluid Dynamics

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Overview Contents: Module-1: Introduction to Computational Fluid Dynamics and Principles of Conservation: Computational Fluid Dynamics: What, When, and Why?, CFD Applications, Numerical vs Analytical vs Experimental, Modeling vs Experimentation, Fundamental principles of conservation, Reynolds transport theorem, Conservation of mass, Conservation of linear momentum: Navier-Stokes equation, Conservation of Energy, General scalar transport equation.

Design and Optimization of Energy Systems

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Overview Module 1: Introduction Introduction to design and specifically system design. Morphology of design with a flow chart. Very brief discussion on market analysis, profit, time value of money, an example of discounted cash flow technique. Concept of workable design, practical example on workable system and optimal design.

Experimental Stress Analysis

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Overview Contents: Overview of experimental stress analysis, Stress analysis Analytical, Numerical and Experimental approaches, Specific domain of these approaches, Advantages and disadvantages. Optical methods work as optical computers, Direct information provided by various experimental methods brief description, Visual appreciation of field information Listing of various problems of different complexity.

Advanced Gas Dynamics

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Overview This course introduces the concepts of the primary differences between an incompressible flow and compressible flow. It draws the connection between compressible flow and speed of sound, Mach Number and thermodynamics. It then builds on the governing equations to derive the commonly known equations and tackles both 2D and 3D problems.

Computer Aided Engineering Design

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Overview CAD Applications: Engineering Products, analogy: documentation, Design Representation, FEM, Optimization, Software/AutoCAD/Mechanical Desktop/I-DEAS - Solid Modeling: Representation of Solids - Solid Modeling: Topology - Solid Modeling: topology, wireframe modeling - Solid Modeling: Boundary Representation - Solid Modeling: Boundary Representation, CSG, Operations: extrude, revolve, examples - Design of Curves: Representation, piecewise continuous, differential geometry of curves.