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# Transforms and Partial Differential Equations 2Ed

400

Author: Muthucumaraswamy C

ISBN: 9789388005005

Copy Right Year: 2018

Pages:  456

Binding: Soft Cover

Publisher:  Yes Dee Publishing

SKU: 9789388005005 Category:

## Description

This book is designed for a one semester course on Transforms and Partial Differential Equations taught across all branches of engineering. This book has simple and clear presentation with wide variety of solved examples which enables the students to understand the course in depth. The author has taken care to maintain an optimum depth in covering all the topics, which fulfills the requirements of both students and faculty.

Weight .57 kg 23 × 18 × 2 cm

## Table of Content

Chapter 1 Partial Differential Equations
1.1 Introduction
1.2 Formation of PDE
1.2.1 Elimination of Arbitrary Constants
1.2.2 Elimination of Arbitrary Functions
1.3 Formation of First Order Partial Differential Equation
1.4 Solution of First Order PDE
1.5 Lagrange’s Equation
1.5.1 Method of Grouping
1.5.2 Method of Multiplier
1.6 First Order Partial Differential Equation
1.6.1 Type-I: f (p, q) = 0
1.6.2 Type-II: Clairut’s Type z = px + qy + f (p, q)
1.6.3 Type-III: First Order PDE ( z is missing)
1.6.4 Type-IV: F (z, p, q) = 0 (x and y are missing)
1.6.5 Type-V: First Order PDE
1.6.6 Type-VI: First Order PDE
1.7 Partial Differential Equations of Higher Order
1.7.1 Homogeneous Linear Partial Differential Equation
1.7.2 Non-homogeneous Partial Differential Equation
Chapter 2 Fourier Series
2.1 Introduction
2.2 Periodic Function
2.3 Fourier Series
2.4 Euler’s Formula (General Form)
2.5 Derivation of Euler’s Formula
2.6 Point of Discontinuity
2.7 Change of Interval
2.8 Even and Odd Function in Fourier Series
2.8.1 Even Function
2.8.2 Odd Function
2.8.3 Even and Odd Function in Change of Interval
2.9 Half-range Series
2.9.1 Half-range Cosine Series
2.9.2 Half-range Sine Series
2.10 Mean Value of a Function
2.11 Root Mean Square Value of a Function (RMS)
2.12 Parseval’s Identity for Fourier Series
2.13 Parseval’s Identity for Fourier Cosine Series
2.14 Parseval’s Identity for Fourier Sine Series
2.15 Complex Form of Fourier Series
2.16 Harmonic Analysis
2.17 Symmetry in Curves

Chapter 3 Applications of Partial Differential Equations
3.1 Classification
3.2 Method of Separation of Variable
3.3 Vibrations of a String
3.3.1 One-dimensional Wave Equation
3.3.2 Possible Solutions of Wave Equation
3.4 One-dimensional Heat Equation
3.5 Possible Solutions of One-dimensional Heat Equation
3.7 Fourier Law of Heat Conduction
3.8 Thermally Insulated Ends
3.10 Two-dimensional Heat Equation
3.11 Possible Solutions of Two-dimensional Heat Equation
Chapter 4 Fourier Transform
4.1 Introduction
4.2 Fourier Integral Theorem
4.3 Fourier Sine and Cosine Integral
4.4 Fourier Transform (FT) and its Inverse (Complex Form)
4.5 Fourier Cosine Transform (FCT) and its Inverse
4.6 Fourier Sine Transform and its Inverse
4.7 Fourier Cosine Transform
4.8 Properties of Fourier Transform
4.9 Finite Fourier Transform
Chapter 5    –Transforms and Difference Equations
5.1 Introduction
5.2 Properties of  -Transform
5.3 Inverse  -Transform
5.3.1 Type-I: Partial Fraction Method
5.4 Unit-impulse Function
5.5 Power Series Method or Long Division Method
5.6 Difference Equation
5.7 Inverse  -Transform Using Residue Technique
5.8 Initial Value Theorem
5.9 Final Value Theorem
5.10 Convolution
5.11 Convolution Theorem for  -Transform
5.12 Time Dependent Sequence

• Solved University Question Papers