Handbook On Numerical Technique Lab Matlab Based Experiments by K K Mishra, Wiley India

Description

Wiley India Handbook On Numerical Technique Lab Matlab Based Experiments by K K Mishra

This book is primarily written for third semester electrical engineering and electronics engineering students under UPTU. It covers all the experiments prescribed by UPTU for Numerical Technique Lab (JEE 351). Besides the syllabus, a lot of other important experiments such as frequency response, 2D and 3D plots, statistics have also been covered. This book will be very useful for the students to understand the software MATLAB and its applications in solving mathematical problems. This book has two sections. Section A gives a brief concept about the software MATLAB, and section B covers many experiments (examples) besides the syllabus. At the end of the book, a quiz has also been included. About the Author K.K. Mishra is Assistant Professor in Kanpur Institute of Technology, Kanpur. He did his M.E. in Electrical Engineering from Punjab Engineering College, Chandigarh, with specialization in power system. His area of interest includes power system stability, facts controller and application of software in engineering field. He has a wide experience in industrial R & D, and teaching. Since last two years he has been teaching Numerical Technique Lab to the students of electrical and electronics engineering. TABLE OF CONTENTS BOOK REVIEW Section ‘A’: Introduction Basics Accessories Section ‘B’: A Basic Mathematics: 1: Study of Basic Matrix Operation 2: Solution of Linear Equations 3: Determination of Eigenvalues and Eigenvectors of a Square Matrix 4: Solution of Linear Equations for Underdetermined and Overdetermined Cases 5: Determination of Roots of a Polynomial 6: Plotting of 2D and 3D Curves 7: Determination of a Polynomial using Method of Least Square Curve Fitting 8: Determination of Polynomial Fit, Analyzing Residuals, Exponential Fit and Error Bounds from Given Data / B. Calculus: 9: Differentiation and Integration of a Given Function 10: Solution of Ordinary Differential Equation (ODE) / C. Application: 11: Solution of Differential Equation by Euler Method 12: Solution of Differential Equation using Fourth Order Runge-Kutta Method 13: Determination of Time Response of R-L-C Circuit / D. Additional: 14: Frequency Response of a Transfer Function 15: Other Useful Exercises Appendix