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) =...

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.

Given: The following boundary value problem:    y"+ lamda*y = 0;                0 < x...

Given: The following boundary value problem:    y"+ lamda*y = 0;                0 < x < 2;         y(0) = 0;          y’(2) = 0 Find corresponding eigenvalues, (lamda)n and normalized eigenfunctions yn Expand the function f(x) = x, in terms of the eigen functions obtained in (i)

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

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. Please do it for lambda = 0, < 0, > 0. I'm strugeling with the basics. Help would be appreciated.

find the eigenvalues and the eigenfunctions for the equation y'' + (lambda)y = 0 where y(a)...

find the eigenvalues and the eigenfunctions for the equation y'' + (lambda)y = 0 where y(a) = 0, y(b) = 0 for a<b.

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 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

Find the general solution to the system x" = 5x + 2y, y" = 2x +...

Find the general solution to the system x" = 5x + 2y, y" = 2x + 8y. Note that the system as stated above has second derivatives. Once you write it as a first-order system, the characteristic equation will be biquadratic (quadratic in λ2), so you can solve for λ2 and then take square roots to get the eigenvalues.

Consider a one-dimensional real-space wave-function ψ(x) and let Pˆ denote the parity operator such that P...

Consider a one-dimensional real-space wave-function ψ(x) and let Pˆ denote the parity operator such that P ψˆ (x) = ψ(−x). a)Starting from the Rodrigues formula for Hermitian polynomials, Hn(y) = (−1)^n*e^y^2*(d^n/dy^n)e^-y^2 with n ∈ N, show that the eigenfunctions ψn(x) of the one-dimensional harmonic oscillator, with mass m and frequency ω, are also eigenfunctions of the parity operator. What are the eigenvalues? b)Define the operator Π = exp [  iπ (( 1 /2α) *pˆ 2 + α xˆ 2/ (h/2π)^2-1/2)] ,...

For the following system: y(n) ? y(n ? 1)/? = x(n), for ? = 0.7, find...

For the following system: y(n) ? y(n ? 1)/? = x(n), for ? = 0.7, find y(12), assuming y(n) = 0, for n? ?1.Hint: find a closed form for y(n) and use it to find the required output sample. (x(n)=1 for n>=0)