obtain the free-space Green’s function for the three-dimensional Poisson equation subject to the following boundary conditions...

Solve the following differential equation by Laplace transforms. The function is subject to the given conditions....

Solve the following differential equation by Laplace transforms. The function is subject to the given conditions. y''-y=5sin2t, y(0)=0, y'(0)=6

ODE: 4. Consider u" + u = 0 , with boundary conditions u(0)= u(L)=0 where L...

ODE: 4. Consider u" + u = 0 , with boundary conditions u(0)= u(L)=0 where L is fixed positive constant. So, u=0 is a sol. a. Is this sol unique and b. to what extend does uniqueness depend on the value of L. Give convincing reasons or proof for your answers. SUBJECT: ORDINARY DIFFERENTIAL EQUATION AND PARTIAL DIFFERENTIAL EQUATIONS

The state of a particle is completely described by its wave function Ψ(?,?) One-dimensional Schrodinger Equation--...

The state of a particle is completely described by its wave function Ψ(?,?) One-dimensional Schrodinger Equation-- answer the following questions: 2) Show that when U(x) = 0, and , is a solution to the one-?=2??/ℏΨ=?sin??dimensional Schrodinger equation. 3) Show that when U(x) = 0, and , is a solution to the one-?=2??/ℏΨ=?cos??dimensional Schrodinger equation. 4) Show that where A and B are constants is a solution to the Ψ=??+?Schrodinger equation when U(x) = 0, and when E = 0.

obtain the green's function for the boundary value problem y''+y = f(x), y(0)=y(1)=0

obtain the green's function for the boundary value problem y''+y = f(x), y(0)=y(1)=0

DE: 4. Consider u" + u = 0 , with boundary conditions u(0)= u(L)=0 where L...

DE: 4. Consider u" + u = 0 , with boundary conditions u(0)= u(L)=0 where L is fixed positive constant. So, u=0 is a sol. a. Is this sol unique and b. to what extend does uniqueness depend on the value of L. Give convincing reasons or proof for your answers. Please, is there any chance to make it a little bit clearer, Thank you. SUBJECT: ORDINARY DIFFERENTIAL EQUATION AND PARTIAL DIFFERENTIAL EQUATIONS

Consider the one dimensional heat equation with homogeneous Dirichlet conditions and initial condition: PDE : ut...

Consider the one dimensional heat equation with homogeneous Dirichlet conditions and initial condition: PDE : ut = k uxx, BC : u(0, t) = u(L, t) = 0, IC : u(x, 0) = f(x) a) Suppose k = 0.2, L = 1, and f(x) = 180x(1−x) 2 . Using the first 10 terms in the series, plot the solution surface and enough time snapshots to display the dynamics of the solution. b) What happens to the solution as t →...

solve the differential equation: (d2y/dx2) + (P/EI)*y = -(Pe/EI) given boundary conditions: y(0)=y(L)=0 this is all...

solve the differential equation: (d2y/dx2) + (P/EI)*y = -(Pe/EI) given boundary conditions: y(0)=y(L)=0 this is all the given information. You didn't post a solution

Once the temperature in an object reaches a steady state, the heat equation becomes the Laplace...

Once the temperature in an object reaches a steady state, the heat equation becomes the Laplace equation. Use separation of variables to derive the steady-state solution to the heat equation on the rectangle R = [0, 1] × [0, 1] with the following Dirichlet boundary conditions: u = 0 on the left and right sides; u = f(x) on the bottom; u = g(x) on the top. That is, solve uxx + uyy = 0 subject to u(0, y) =...

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.

Using separation of variables, write down a complete list of L^2 eigenfunctions and of eigenvalues for...

Using separation of variables, write down a complete list of L^2 eigenfunctions and of eigenvalues for the Laplacian on the cylinder D X [-1, 1], with homogeneous Dirichlet boundary conditions, where D is the (two-dimensional) disk centered at the origin of radius 2. b) Use this to solve the heat equation partial u / partial t = Delta u on this cylinder with homogeneous Dirichlet boundary conditions, with initial data u(x, y, z, 0) = z, where z is the...