Consider the operator ?̂=−?2/??2+?2. Find the value of ? that makes ??−??2 an eigenfunction of the...

Test each function to see if it is an eigenfunction of the operator. If it is,...

Test each function to see if it is an eigenfunction of the operator. If it is, what is the eigenvalue? If it is not, can you write it as a superposition of functions (i.e. a sum of functions) that is an eigenfunction of that operator. pˆ → i~ d dx (1) φ1(x) = Ae−ikx φ2(x) = Ae+ikx φ2(x) = A sin kx (2)

To generate the excited states for the quantum harmonic oscillator, one repeatedly applies the raising operator...

To generate the excited states for the quantum harmonic oscillator, one repeatedly applies the raising operator ˆa+ to the ground state, increasing the energy by ~ω with each step: ψn = An(ˆa+) nψ0(x) with En = (n + 1 2 )~ω where An is the normalization constant and aˆ± ≡ 1 √ 2~mω (∓ipˆ+ mωxˆ). Given that the normalized ground state wave function is ψ0(x) = mω π~ 1/4 e − mω 2~ x 2 , show that the first...

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...

Consider the operator that is given by. M = 2 i -i 2 in the basis...

Consider the operator that is given by. M = 2 i -i 2 in the basis {1} and {2} when they are assigned to {1,0} and {0,1} respectively. a. What are the two new basis vectors for which M is diagonal? b. Write the new pair of basis vectors both in ket notation as a linear combination of {1} and {2} and column notation with {1} and {2} assigned to {1,0} and {0,1} respectively. Label the two new basis vectors...

Find a linear differential operator that annihilates the given function. (Use D as the differential operator)...

Find a linear differential operator that annihilates the given function. (Use D as the differential operator) x cos(2x) Verify that the differential operator you obtained annihilates the given function.

Consider the function ?(?)=2?^3+12?^2−72?+2, −6≤?≤3 a) Find the absolute minimum value b) Find the absolute maximum...

Consider the function ?(?)=2?^3+12?^2−72?+2, −6≤?≤3 a) Find the absolute minimum value b) Find the absolute maximum value

Consider an investment in a security with a face value of EUR 1,000 that makes interest...

Consider an investment in a security with a face value of EUR 1,000 that makes interest payments at a nominal annual rate of 12%. Find the equivalent annual effective rate, under the following assumptions: a) interest is paid once at the end of the year (m = 1); b) interest is paid at the end of every semester, i.e. twice in a year (m = 2); c) interest is paid at the end of every month, i.e. twelve times in...

(1) Consider the linear operator T : R2 ! R2 defined by T x y =...

(1) Consider the linear operator T : R2 ! R2 defined by T x y = 117x + 80y ??168x ?? 115y : Compute the eigenvalues of this operator, and an eigenvector for each eigen-

Find the matrix operator T: P3 --> P2 where T [= T(a + bx + cx^2...

Find the matrix operator T: P3 --> P2 where T [= T(a + bx + cx^2 + dx^3) = b + 2cx + 3dx^2 with respect to bases B = {1, x, x^2, x^3} and C = {1, x, 2x^2, -1}.

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)] ,...