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Chapter:

Multiple-Integrals

1. Separation of variables was first used by L’Hospital in 1750.


Hint Answer

2. Solve differential equation \(x^2 \frac{∂u}{∂x}+y^2 \frac{∂u}{∂y}=u \) using method of separation of variables if \(u(0,y) = e^{\frac{2}{y}} \).


Hint Answer

3. Which of following is not a field in which heat equation is used?


Hint Answer

4. A rod of 30cm length has its ends P and Q kept 20°C and 80°C respectively until steady state condition prevail. The temperature at each point end is suddenly reduced to 0°C and kept so. Find conditions for solving equation.


Hint Answer

5. While solving a partial differential equation using a variable separable method, we assume that function can be written as product of two functions which depend on one variable only.


Hint Answer

6. When using variable separable method to solve a partial differential equation, n function can be written as product of functions depending only on one variable. For example, U(x,t) = X(x)T(t).


Hint Answer

7. What is order of partial differential equation, \(\frac{∂z}{∂x}-(\frac{∂z}{∂y})^3=0\)?


Hint Answer

8. The matrix form of separation of variables is Kronecker sum.


Hint Answer

9. When solving a 1-Dimensional heat equation using a variable separable method, we get solution if __________


Hint Answer

10. Solve partial differential equation \(x^3 \frac{∂u}{∂x} +y^2 \frac{∂u}{∂y} = 0 \) using method of separation of variables if \(u(0,y) = 10 \, e^{\frac{5}{y}}.\)


Hint Answer

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All Chapters

View all Chapter and number of question available From each chapter from Engineering-Mathematics

Differential Calculus

Differential Calculus

Partial Differentiation

Partial Differentiation

Maxima and Minima

Maxima and Minima

Curve Tracing

Curve Tracing

Integral Calculus

Integral Calculus

Multiple Integrals

Multiple Integrals

Ordinary Differential Equations – First Order & First Degree

Ordinary Differential Equations – First Order & First Degree

Linear Differential Equations – Second and Higher Order

Linear Differential Equations – Second and Higher Order

Series Solutions

Series Solutions

Special Functions – Gamma, Beta, Bessel and Legendre

Special Functions – Gamma, Beta, Bessel and Legendre

Laplace Transform

Laplace Transform

Matrices

Matrices

Eigen Values and Eigen Vectors

Eigen Values and Eigen Vectors

Vector Differential Calculus

Vector Differential Calculus

Vector Integral Calculus

Vector Integral Calculus

Fourier Series

Fourier Series

Partial Differential Equations

Partial Differential Equations

Applications of Partial Differential Equations

Applications of Partial Differential Equations

Fourier Integral, Fourier Transforms and Integral Transforms

Fourier Integral, Fourier Transforms and Integral Transforms

Complex Numbers

Complex Numbers

Complex Function Theory

Complex Function Theory

Complex Integration

Complex Integration

Theory of Residues

Theory of Residues

Conformal Mapping

Conformal Mapping

Probability and Statistics (Mathematics III / M3)

Probability and Statistics (Mathematics III / M3)

Numerical Methods

Numerical Methods / Numerical Analysis (Mathematics IV / M4)

Topics

This Chapter Multiple-Integrals consists of the following topics

Applications of Partial Differential Equations

Separation of variables was first used by L’Hospital in 1750.

;

Solve differential equation \(x^2 \frac{∂u}{∂x}+y^2 \frac{∂u}{∂y}=u \) using method of separation of variables if \(u(0,y) = e^{\frac{2}{y}} \).

;

Which of following is not a field in which heat equation is used?

;

A rod of 30cm length has its ends P and Q kept 20°C and 80°C respectively until steady state condition prevail. The temperature at each point end is suddenly reduced to 0°C and kept so. Find conditions for solving equation.

;

While solving a partial differential equation using a variable separable method, we assume that function can be written as product of two functions which depend on one variable only.

;

When using variable separable method to solve a partial differential equation, n function can be written as product of functions depending only on one variable. For example, U(x,t) = X(x)T(t).

;

What is order of partial differential equation, \(\frac{∂z}{∂x}-(\frac{∂z}{∂y})^3=0\)?

;

The matrix form of separation of variables is Kronecker sum.

;

When solving a 1-Dimensional heat equation using a variable separable method, we get solution if __________

;

Solve partial differential equation \(x^3 \frac{∂u}{∂x} +y^2 \frac{∂u}{∂y} = 0 \) using method of separation of variables if \(u(0,y) = 10 \, e^{\frac{5}{y}}.\)

;