Solve the following wave equation using Fourier Series a2uxx = utt, 0 < x < pi,...

Solve the following wave equation using Fourier Series a2uxx = utt, 0 < x < pi,...

Solve the following wave equation using Fourier Series a2uxx = utt, 0 < x < pi, t > 0, u(0,t) = 0 = u(pi,t), u(x,0) = sinxcosx, ut(x,0) = x(pi - x)

Solve the following wave equation using Fourier Series a2uxx = utt, 0 < x < L,...

Solve the following wave equation using Fourier Series a2uxx = utt, 0 < x < L, t > 0, u(0,t) = 0 = u(L,t), u(x,0) = x(L - x)2, ut(x,0) = 0

Solve the wave equation: utt = c2uxx, 0<x<pi, t>0 u(0,t)=0, u(pi,t)=0, t>0 u(x,0) = sinx, ut(x,0)...

Solve the wave equation: utt = c2uxx, 0<x<pi, t>0 u(0,t)=0, u(pi,t)=0, t>0 u(x,0) = sinx, ut(x,0) = sin2x, 0<x<pi

Solve the wave equation Utt - C^2 Uxx = 0 with initial condtions : 1) u(x,0)...

Solve the wave equation Utt - C^2 Uxx = 0 with initial condtions : 1) u(x,0) = log (1+x^2), Ut(x,0) = 4+x 2) U(x,0) = x^3 , Ut(x,0) =sinx (PDE)

Solve the non homogenous wave equation , Utt - c^2Uxx =1 , u(x,0) = sin (x)...

Solve the non homogenous wave equation , Utt - c^2Uxx =1 , u(x,0) = sin (x) , Ut(x,0) = 1+x (PDE)

Use the eigenfunction expansion to solve utt = uxx + e −t sin(3x), 0 < x...

Use the eigenfunction expansion to solve utt = uxx + e −t sin(3x), 0 < x < π u(x, 0) = sin(x), ut(x, 0) = 0 u(0, t) = 1, u(π, t) = 0. Your solution should be in the form of Fourier series. Write down the formulas that determine the coefficients in the Fourier series but do not evaluate the integrals

(PDE) WRITE down the solutions to the ff initial boundary problem for wave equation in the...

(PDE) WRITE down the solutions to the ff initial boundary problem for wave equation in the form of Fourier series : 1. Utt = Uxx ; u( t,0) = u(t,phi) = 0 ; u(0,x)=1 , Ut( (0,x) = 0 2. Utt = 4Uxx ; u( t,0) = u(t,1) = 0 ; u(0,x)=x , Ut( (0,x) = -x

(PDE Use the method of separation of variables and Fourier series to solve where m is...

(PDE Use the method of separation of variables and Fourier series to solve where m is a real constant And boundary value prob. Of Klein Gordon eqtn. Given : Utt - C^2 Uxx + m^2 U = 0 ,for 0 less than x less pi , t greater than 0 U (0,t) = u (pi,t) =0 for t greater than 0 U (x,0) = f (x) , Ut (x,0)= g (x) for 0 less than x less than pj

Solve the BVP for the wave equation ∂^2u/∂t^2(x,t)=∂^2u/∂x^2(x,t),  0 < x < pi, t > 0 u(0,t)=0,...

Solve the BVP for the wave equation ∂^2u/∂t^2(x,t)=∂^2u/∂x^2(x,t),  0 < x < pi, t > 0 u(0,t)=0, u(pi,t)=0,  ? > 0, u(0,t)=0,  u(pi,t)=0,  t>0, u(x,0)= sin(x)cos(x), ut(x,0)=sin(x), 0 < x < pi

Solve the below boundary value equation 1. Ut=2uxx o<x<pi 0<t 2. u(0,t) = ux(pi,t) 0<t 3....

Solve the below boundary value equation 1. Ut=2uxx o<x<pi 0<t 2. u(0,t) = ux(pi,t) 0<t 3. u(x,0) = 1-2x 0<x<pi