Course Outline
Numerical Technique to solve Linear and Non-Linear systems, Generalized Newton’s Method. Finite difference Method, Finite Volume Method for PDEs. Upwind Schemes, TVD Schemes, Marker and Cell Method, Multi grid Method, Pseudo-spectral Method. Matlab applications for solving PDEs.
Recommended Books
1. F. B. Hildebrand, Introduction to Numerical Analysis.
- Teacher: masood qau
Course Outline
Fundamentals and advanced techniques related to manufacturing processes. Applied aspects of manufacturing processes, a sound analytical basis for some of the processes will be taught. Through the use of analytical approaches you will learn how to control a manufacturing process for optimal production. This course builds a foundation of capability for the solution, analysis and synthesis of a wide variety of manufacturing problems.
Recommended Texts
1. E.P. DeGarmo, J. T Black, R.A.Kohser, Materials and Processes in Manufacturing, Prentice Hall of India, New Delhi .
2. Ghosh, and A.K. Mallik, Manufacturing Science, Affiliated East-West Press Pvt. Ltd. New Delhi.
3. G. F. Benedict, Marcel Dekker, Non-traditional Manufacturing
Processes, Inc. New York
- Teacher: mushtaquerajput rajput
Course Outline
An advanced study of the transmission of heat by conduction, convection
and radiation. Conduction and convection: derivation and application of their equations governing steady and unsteady conduction heat transfer,
transient conduction, and numerical solutions are examined with selected
topics. Governing equations for forced and natural convection;
dimensional analysis and similarity transforms are applied. Radiation:
physical properties of radiation, thermal radiation laws, characteristics of
real and ideal systems, geometric shape factors, grey and non-grey
system analysis, energy transfer in absorbing media and luminous gases,
solar radiation.
Recommended Texts
1. Amir Faghri, Yuwen Zhang, John R. Howell, Advanced Heat and
Mass Transfer