5. Consider the problem a2y"y _2.J 0 x1 = 0, y(0) 0, y(1= 0. (a) Put the problem in Sturm-Liouville form and explai...
#2 ONLY PLEASE
1. Consider the non-Sturm-Liouville differential equation Multiply this equation by H(x). Determine H(x) such that the equation may be reduced to the standard Sturm-Liouville form: do Given a(z), 3(2), and 7(2), what are p(x), σ(x), and q(x) 2. Consider the eigenvalue problem (a) Use the result from the previous problem to put this in Sturm-Liouville form (b) Using the Rayleigh quotient, show that λ > 0. (c) Solve this equation subject to the boundary conditions and determine...
6. Consider the eigenvalue problem 1 < x < 2, y(1) = 0, y(2) = 0. (a) Write the problem in Sturm-Liouville form, identifying p, q, and w. (b) Is the problem regular? Explain |(c) Is the operator S symmetric? Explain. (d) Find all eigenvalues and eigenfunctions. Discuss in light of Theorem 4.3 (e) Find the orthogonal expansion of f(x) = ln x, 1 < x < 2, in terms of these eigenfunctions. (f) Find the smallest N such that...
7. Consider the eigenvalue problem y(0) = 0, y( 1 ) = 0. points b) State the appropriate modified boundary conditions c) Find all eigenvalues and eigenfunctions for the modified problem.
II. 1. Find the eigenvalues and the eigenfunctions for the following Sturm-Liouville problem X"+AX=0, x(0)=0, X'(TT) = 0
(20 points) For the following problem use separation of variables to identify the Sturm-Liouville Problem and its eigenvalues and eigenfunctions. DO NOT solve it. This is a steady state temper- ature problem in a cylinder where the temperature depends on ρ and z only. 4. Up(1,2) = 0, 0<z<1 a(p, 0) 0, u(p, 1) 5, 0 < ρ < 1
(20 points) For the following problem use separation of variables to identify the Sturm-Liouville Problem and its eigenvalues and eigenfunctions....
Solve part (d)
6. Consider the eigenvalue problem 2"xy3y Ay 0 y(1)0, y(2)= 0. + 1 < x< 2, (a) Write the problem in Sturm-Liouville form, identifying p, q, and w. (b) Is the problem regular? Explain (c) Is the operator S symmetric? Explain (d) Find all eigenvalues and eigenfunctions. Discuss in light of Theorem 4.3 ln x, 1 < 2, in terms of these (e) Find the orthogonal expansion of f(x) eigenfunctions _
6. Consider the eigenvalue problem 2"xy3y...
Consider the Sturm-Louiville problem d2y +Ay 0, y(0) 0, '(5)= 0. dz2 With n defined as taking values n 1,2,3,..., complete the following. (a) Enter the eigenvalues. (b) Enter the eigenfunctions.
Consider the Sturm-Louiville problem d2y +Ay 0, y(0) 0, '(5)= 0. dz2 With n defined as taking values n 1,2,3,..., complete the following. (a) Enter the eigenvalues. (b) Enter the eigenfunctions.
4. Consider the following Sturm-Liouville problem with u(0)u'(0)-0 and u(1) u 0 ISTANBUL TECHNICAL UNIVERSITY, UZB218E, Return date: Before 16 (a) Find the eigenvalues. (b) Solve the problem.
4. Consider the following Sturm-Liouville problem with u(0)u'(0)-0 and u(1) u 0 ISTANBUL TECHNICAL UNIVERSITY, UZB218E, Return date: Before 16 (a) Find the eigenvalues. (b) Solve the problem.
just put the eigenvalue and eigenfunctions would be good
Consider the Sturm-Louiville problem d2y Ay 0, y0) 0, (5) 0. dr2 With n defined as taking values n = 1,2, 3, .., complete the following (a) Enter the eigenvalues. (b) Enter the eigenfunctions. yn =
Consider the Sturm-Louiville problem d2y Ay 0, y0) 0, (5) 0. dr2 With n defined as taking values n = 1,2, 3, .., complete the following (a) Enter the eigenvalues. (b) Enter the eigenfunctions. yn...
Consider the following second order PDE Uit – 9Uxx = 0, 0<x< < t > 0, (A) and the following boundary value/initial conditions: Ux(t,0) = uſt, 5) = 0, t>0, u(0, x) = 44(0, x) = 4 cos’ x, 0<x< (BC) (IC) for the function u= u(t, x). a. (5 points) Find ordinary differential equations for functions T = T(t) and X = X(x) such that the function u(t, x) = T(t)X(x) satisfies the PDE (A). b. (5 points) Find...