for which initial conditions will be the solution of x"(t) +8x'(t) - 20x=0 tend to zero...

Find the solution to x'=y y'=8x+2y x(0)=0 y(0)=8 x(t)= y(t)=

Find the solution to x'=y y'=8x+2y x(0)=0 y(0)=8 x(t)= y(t)=

uxx = ut - u (0<x<1, t>0), boundary conditions: u(1,t)=cost, u(0,t)= 0 initial conditions: u(x,0)= x...

uxx = ut - u (0<x<1, t>0), boundary conditions: u(1,t)=cost, u(0,t)= 0 initial conditions: u(x,0)= x i) solve this problem by using the method of separation of variables. (Please, share the solution step by step) ii) graphically present two terms(binomial) solutions for u(x,1).

Find the function y1(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y1(0)=1,y′1(0)=0. y1(t)=? Find...

Find the function y1(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y1(0)=1,y′1(0)=0. y1(t)=? Find the function y2(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y2(0)=0, y′2(0)=1. y2(t)= ? Find the Wronskian of these two solutions you have found: W(t)=W(y1,y2). W(t)=?

Find the solution of each of the following initial-value problems. x'=y+f1(t), x(0)=0 y'=-x+f2(t), y(0)=0

Find the solution of each of the following initial-value problems. x'=y+f1(t), x(0)=0 y'=-x+f2(t), y(0)=0

Solve the IVP x''+ax=b+e-ct, x(0)=x'(0)=0, a, b, c all positive parameters. Does your solution approach a...

Solve the IVP x''+ax=b+e-ct, x(0)=x'(0)=0, a, b, c all positive parameters. Does your solution approach a constant as t goes to infinity? If not, why not?

Solve ut=uxx, 0 < x < 3, given the following initial and boundary conditions: - u(0,t)...

Solve ut=uxx, 0 < x < 3, given the following initial and boundary conditions: - u(0,t) = u(3,t) = 1 - u(x,0) = 0 Please write clearly and explain your reasoning.

find the solution of the initial value-boundry vaule problem 8uxx=ut 0<x<8 t>=0 u(0,t)=0 u(8,t) = 4...

find the solution of the initial value-boundry vaule problem 8uxx=ut 0<x<8 t>=0 u(0,t)=0 u(8,t) = 4 u(x,0) = x

1. a) Show that u(x, t) = (x + t) 3 is a solution of the...

1. a) Show that u(x, t) = (x + t) 3 is a solution of the wave equation utt = uxx. b) What initial condition does u satisfy? c) Plot the solution surface. d) Using (c), discuss the difference between the conditions u(x, 0) and u(0, t).

x''+8x'+25x=10u(t).....x(0)=0....x'(0)=0 please solve this differential equation and show all steps including the characteristic equation.

x''+8x'+25x=10u(t).....x(0)=0....x'(0)=0 please solve this differential equation and show all steps including the characteristic equation.

Determine the solution of the following initial boundary-value problem Uxx=4Utt 0<x<Pi t>0 U(x,0)=sinx 0<=x<Pi Ut(x,0)=x 0<=x<Pi...

Determine the solution of the following initial boundary-value problem Uxx=4Utt 0<x<Pi t>0 U(x,0)=sinx 0<=x<Pi Ut(x,0)=x 0<=x<Pi U(0,t)=0 t>=0 U(pi,t)=0 t>=0