what are the most probable displacements of a harmonic oscillator with v=1?

Q1: Select all true statements. The KE of a simple harmonic oscillator is maximum at the...

Q1: Select all true statements. The KE of a simple harmonic oscillator is maximum at the maximum absolute displacements. The frequency of a simple harmonic oscillator is independent of its amplitude. A harmonic oscillator, the motion of which is reduced and brought to rest over time by friction, is an example of a damped harmonic oscillator. The period of an object moving in simple harmonic motion is the number of cycles that occur per second. Young’s Modulus depends on the...

The velocity of a simple harmonic oscillator is given by v = -8.02sin(21.11t) (mks units) If...

The velocity of a simple harmonic oscillator is given by v = -8.02sin(21.11t) (mks units) If the spring constant is 48 N/m, what is the spring's total mechanical energy?

Consider a system of three non-interacting particles confined by a one-dimensional harmonic oscillator potential and in...

Consider a system of three non-interacting particles confined by a one-dimensional harmonic oscillator potential and in thermal equilibrium with a total energy of 7/2 ħw. (a) what are the possible occupation numbers for this system if the particles are distinquishable. (b) what is the most probable energy for a distinquishable picked at random from this system.

A particle in a simple harmonic oscillator potential V (x) = 1 /2mω^2x^2 has an initial...

A particle in a simple harmonic oscillator potential V (x) = 1 /2mω^2x^2 has an initial wave function Ψ(x,0) = (1/ √10)(3ψ1(x) + ψ2(x)) , where ψ1 and ψ2 are the stationary state solutions of the first and second energy level. Using raising and lowering operators (no explicit integrals except for orthonomality integrals!) find <x> and <p> at t = 0

Let the mass harmonic oscillator and pulse w be in the state ψ (x) = 1...

Let the mass harmonic oscillator and pulse w be in the state ψ (x) = 1 /√2ψ0(x) + i/√2ψ2 (x), where ψn(x) are eigenfuntions of the harmonic oscillator. If we measure the energy, what values ​​can we obtain?

A harmonic oscillator with the usual PE of V(x)= (.5)kx^2 perturbed by a small change to...

A harmonic oscillator with the usual PE of V(x)= (.5)kx^2 perturbed by a small change to the spring constant k -->(1+E)k, with E<<1. 1. Write the new energy eigenvalues, making sure any parameters are clearly defined. 2. Expand the eigenvalue expression in a power series in E up to the second order using a Taylor series expansion. 3. What is the perturbation Hamiltonian in the problem?

(a) Give the parities of the wavefunctions for the first four levels of a harmonic oscillator....

(a) Give the parities of the wavefunctions for the first four levels of a harmonic oscillator. (b) How may the parity be expressed in terms of the quantum number v?

For a particle in the first excited state of harmonic oscillator potential, a) Calculate 〈?〉1, 〈?〉1,...

For a particle in the first excited state of harmonic oscillator potential, a) Calculate 〈?〉1, 〈?〉1, 〈? 2〉1, 〈? 2〉1. b) Calculate (∆?)1 and (∆?)1. c) Check the uncertainty principle for this state. d) Estimate the length of the interval about x=0 which corresponds to the classically allowed domain for the first excited state of harmonic oscillator. e) Using the result of part (d), show that position uncertainty you get in part (b) is comparable to the classical range of...

What are the differences between the conclusions for a harmonic oscillator drawn by classical mechanics and...

What are the differences between the conclusions for a harmonic oscillator drawn by classical mechanics and quantum mechanics?

a harmonic wave is traveling along a rope. It is observed that the oscillator that generates...

a harmonic wave is traveling along a rope. It is observed that the oscillator that generates the wave completes 40.0 vibrations in 30.0 s. Also, a given maximum travels 425 cm along the rope in 10.0 s. What is the wavelength? Derive the relation V = f λ