Using simple steps Solution of non homogeneous PDE by direct integration example(PART-2)
In this video explaining second problem of non homogeneous PDE by direct integration. This method is very interesting and very easy. To get solution. However in some cases we can use direct integration to find a particular solution. This method is particularly useful when the non-homogeneous term involves a product of functions that are easy to integrate. #homogeneousequation #integration 18MAT21 MODULE 1:Vector Calculus • Vector Calculus 18MAT21 MODULE 2:Differential Equation higher order • Ordinary Differential Equation of Higher O... 18MAT21 MODULE 3: Partial differential equations • Partial differential equations 18MAT21 MODULE 4: Infiinite series & Power series solution • Special Functions 18MAT21 MODULE 5: Numerical methods • Numerical methods 18MAT11 Module1: Differential Calculus1 • Differential Calculus 18MAT11 Module2: differential Calculus2 • Power Series Expansion, Indeterminate Form... 18MAT11 Module3: Integral Calculus • Multiple Integrals & Beta and Gamma functions 18MAT11 Module4: Ordinary differential equations • Ordinary differential equations (ODE's) of... Linear Algebra: 18MAT11 MODULE 5 • Linear Algebra: 22MAT11 LAPLACE TRANSFORM : 18MAT31 • LAPLACE TRANSFORM Fourier Transforms Z-transform : 18MAT31 & 17MAT31 • Fourier Transforms,Z-transform: 21MAT31 & ... Fourier Series: 18MAT31 & 17MAT31 • Fourier Series: 21MAT31 & 18MAT31 Calculus of Variation & Numerical Methods 18MAT31 • Numerical Solution of Second-Order ODEs an... Numerical Methods ODE's: 18MAT31 & 17MAT41 • Numerical Solution of Ordinary Differentia... Joint Probability & Sampling Theory: 18MAT41 & 17MAT41 • Joint Probability & Sampling Theory Probability Distributions: 18MAT41 & 17MAT41 • Probability Distributions Calculus of Complex Functions: 18MAT41 & 17MAT41 • Complex Analysis & Complex Integrations Curve fitting & Statistical Method 18MAT41 17MAT31 • Statistical Method & Curve fitting
