Problem 1. Find the general solution of an 1D heat equation: T(x, t) = 4Txx(x, t)...
Problem 1. Find the general solution of an ID heat equation: Tt(x,t) = 4Txx(x,t) with the boundary conditions T(0,t) = T(2,t) = 0. Note that T(x,t) denotes the temperature profile along x of a uniform rod of length 2. Problem 2. Solve the following ID wave equation: Ott(x,t) = 0xx(x,t) with the boundary conditions 0 (0,t) = 0;(1,t) = 0, where 0(x,t) refers to the twist angle of a uniform rod of unit length. Problem 3. Show that the solution...
Problem 3. Show that the solution of the partial differential equation (Laplace equation), Wxx(x, y) + Wyy(x, y) = 0, with the four boundary conditions: w(x,0) = 0, w(x, 1) = 0, w(0, y) = 0 and w(1, y) = 24 sin ny, can be obtained as w(x, y) = 2 sinh nx · sin ny. [Suggested Solution Steps for Problem 3] (1) Apply the method of separation of variables as w(x,y) = X(x) · Y(y); (2) substitute into the...
Problem 3. Show that the solution of the partial differential equation (Laplace equation), Wxx(x,y) + Wyy(x, y) = 0, with the four boundary conditions: w(x,0) = 0, w(x, 1) = 0, w(0,y) = 0 and w(1, y) = 24 sin ny, can be obtained as w(x, y) = 2 sinh nx · sin ny.
mechanical engineering analysis help, please show all work, thanks. Problem 3. Show that the solution of the partial differential equation (Laplace equation), Wxx(x,y) + wyy(x, y) = 0, with the four boundary conditions: w(x,0) = 0, w(x,1) = 0, w(0,y) = 0 and w(1, y) = 24 sin ny, can be obtained as w(x,y) = 2 sinh Tx. sin ny.
Find the general solution of an 1D heat equation: ?t (?, ?) = 4?xx (?, ?) with the boundary conditions ?(0, ?) = ?(2, ?) = 0. Note that ?(?, ?) denotes the temperature profile along ? of a uniform rod of length 2.
Consider the 1D wave equation Ye = a?yrz (1) with boundary conditions y(x 0,t) 0; y(x = L, t) = 0; y(r, t = 0) - f(x); y(r,t 0) 0. (2) Use separation of variables to convert the PDE into 2 ODEs. Clearly state the boundary conditions for the 2 ODEs Consider the 1D wave equation Ye = a?yrz (1) with boundary conditions y(x 0,t) 0; y(x = L, t) = 0; y(r, t = 0) - f(x); y(r,t 0)...
Problem 2. Solve the following ID wave equation: Ott(x,t) = 0xx(x, t) with the boundary conditions 0(0,t) = 0x(1,t) = 0, where 0(x, t) refers to the twist angle of a uniform rod of unit length. Problem 3. Show that the solution of the partial differential equation (Laplace equation),
Let u be the solution to the initial boundary value problem for the Heat Equation, dụı(t, x)-20 11(t, x), IE(0, oo), XE(0,3); with initial condition u(0,x)-f (x), where f(0) 0 andf'(3)0, and with boundary conditions Using separation of variables, the solution of this problem is with the normalization conditions 3 a. (5/10) Find the functions wn, with index n 1. wn(x) = 1 . b. (5/10) Find the functions vn, with index n Let u be the solution to the...
PROBLEM 1 IS SUPPOSED TO BE A WAVE EQUATION NOT HEAT EQUATION 1. Find the solution to the following boundary value initial value problem for the Heat Equation au 22u 22 = 22+ 2 0<x<1, c=1 <3 <1, C u(0,t) = 0 u(1,t) = 0 (L = 1) u(x,0) = f(x) = 3 sin(7x) + 2 sin (3x) (initial conditions) (2,0) = g(x) = sin(2x) 2. Find the solution to the following boundary value problem on the rectangle 0 <...
Solve the following 1D wave equation: ?tt (?, ?) = ?xx= (?, t) with the boundary conditions ?(0, ?) = ?x(1, ?) = 0, where ?(?, ?) refers to the twist angle of a uniform rod of unit length.