Sturm-Liouville problem: y′′+λy= 0, y′(0) = 0, y(1) +y′(1) = 0. Determine the four smallest eigenvalues...

Sturm-Liouville problem: y′′+λy= 0, y′(0) = 0, y(1) +y′(1) = 0. Determine the four smallest eigenvalues...

Sturm-Liouville problem: y′′+λy= 0, y′(0) = 0, y(1) +y′(1) = 0. Determine the four smallest eigenvalues and corresponding eigenfuntions. For lambda = 0, < 0, > 0

a)Find the eigenvalues and eigenfunctions of the Sturm-Liouville system y"+ lamda y = 0 y(0) =...

a)Find the eigenvalues and eigenfunctions of the Sturm-Liouville system y"+ lamda y = 0 y(0) = 0 y'(1) = 1 I got y=x and y=sin((sqrt k)x)/((sqrt k) cos(sqrt k)) Please do b (b) Show that the eigenfunctions Yn and Ym you obtained from the above are orthogonal if n not= m.

Find the eigenvalues and eigenfunctions of the Sturm-Liouville system y"+ lamda y = 0 y(0) =...

Find the eigenvalues and eigenfunctions of the Sturm-Liouville system y"+ lamda y = 0 y(0) = 0 y'(1) = 1 (b) Show that the eigenfunctions Yn and Ym you obtained from the above are orthogonal if n not= m.

find the eigenvalues and eigenfunctions for the given boundary-value problem. y'' + (lambda)y = 0, y(-pi)=0,...

find the eigenvalues and eigenfunctions for the given boundary-value problem. y'' + (lambda)y = 0, y(-pi)=0, y(pi)=0 Please explain where alpha = (2n+1)/2 comes from in the lambda>0 case. Thank you!!

Find the values of λ (eigenvalues) for which the given problem has a nontrivial solution. Also...

Find the values of λ (eigenvalues) for which the given problem has a nontrivial solution. Also determine the corresponding nontrivial solutions​ (eigenfunctions). 2y''+λy=0;  0<x<π, y(0)=0, y'(π)=0

Find all eigenvalues and corresponding eigenfunctions for the following boundary value problem (x^2)y'' + λy =...

Find all eigenvalues and corresponding eigenfunctions for the following boundary value problem (x^2)y'' + λy = 0, (1 < x < 2), y(1) = 0 = y(2) and in particular the three cases μ < 1/2, μ = 1/2, and μ > 1/2 associated with the sign and vanishing of the discriminant of the characteristic equation

Convert the problem into a first order system of equations. Determine the eigenvalues of the resulting...

Convert the problem into a first order system of equations. Determine the eigenvalues of the resulting matrix, and use the eigen values to determine whether or not the solution decays to a constant value. y''+3y'+5y=0 y(0)=0 y'(0)=1

Consider the following eigenvalue problem x 2φxx + xφx + λφ = 0, 1 < x...

Consider the following eigenvalue problem x 2φxx + xφx + λφ = 0, 1 < x < 3, φ(1) = 0, φ(3) = 0, where λ is the eigenvalue and φ(x) is the eigenfunction. (a) Write the eigenvalue problem in standard Sturm-Liouville form (p(x)φ 0 ) 0 + q(x)φ + λσ(x)φ = 0. (b) Show that λ ≥ 0. (c) Use the Rayleigh quotient to obtain an upper bound for the lowest eigenvalue of the eigenvalue problem. Justify your choice...

Find u(x,y) harmonic in S with given boundary values: S = {(x,y): 1 < y <...

Find u(x,y) harmonic in S with given boundary values: S = {(x,y): 1 < y < 3} , u(x,y) = 5 (if y=1) and = 7 (when y=3) I have this problem to solve, and I'm not sure where to start. Any help would be appreciated. Thanks!

Consider a two-dimensional potential problem for a region bounded by four planes x=0, y=0, and y=1....

Consider a two-dimensional potential problem for a region bounded by four planes x=0, y=0, and y=1. There are no charges inside the bounded region. The boundaries at x=0, x=1, and y=0 are held at zero potential. The potential at the boundary y=1 is given by V(x,1)=V0sin(pi*x) a.) find the electrostatic potential V(x,y) everywhere inside this region by solving the Laplace equation in two dimensions using the method of separation of variables. b.) Calculate the surface charge density on the boundary...