Use the recursion formula to work out H7(x) and H8(x)for harmonic oscillator.

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?

For a harmonic oscillator in the ground-state, determine △p and △x. How does the value of...

For a harmonic oscillator in the ground-state, determine △p and △x. How does the value of △p△x compare to the Heisenberg Uncertainty Principle?

Consider a one dimensional Harmonic oscillator. Use perturbation theory to find the energy corrections up to...

Consider a one dimensional Harmonic oscillator. Use perturbation theory to find the energy corrections up to second order in the perturbative parameter ? for a perturbative potential of the kind: a) V = ?x b) V = ?x^3.

Why is harmonic oscillator h ( function of r = r(x) ) can be directly added...

Why is harmonic oscillator h ( function of r = r(x) ) can be directly added into Hamilton system H ? )

For the simple harmonic oscillator at first excited state the Hermite polynomial H1=x, (a)find the normalization...

For the simple harmonic oscillator at first excited state the Hermite polynomial H1=x, (a)find the normalization constant C1 (b) <x> (c) <x2>, (d) <V(x)> for this state.

Show that the two lowest energy states of the simple harmonic oscillator, ψ0(x) and ψ1(x) from...

Show that the two lowest energy states of the simple harmonic oscillator, ψ0(x) and ψ1(x) from Equation ψn(x) = Nn e^ (− β^2 x^2/2) Hn(βx) n= 0,1..., satisfies the time-independent Schrӧdinger equation.

Q. 2​(a) For the first excited state of harmonic oscillator, calculate <x>, <p>, <x2>, and <p2>...

Q. 2​(a) For the first excited state of harmonic oscillator, calculate <x>, <p>, <x2>, and <p2> explicitly by spatial integration. (b) Check that the uncertainty principle is obeyed. (c) Compute <T> and <V>. .

In Classical Physics, the typical simple harmonic oscillator is a mass attached to a spring. The...

In Classical Physics, the typical simple harmonic oscillator is a mass attached to a spring. The natural frequency of vibration (radians per second) for a simple harmonic oscillator is given by ω=√k/m and it can vibrate with ANY possible energy whatsoever. Consider a mass of 135 grams attached to a spring with a spring constant of k = 1 N/m. What is the Natural Frequency (in rad/s) of vibration for this oscillator? In Quantum Mechanics, the energy levels of a...

Please provide an example of a damped harmonic oscillator. They are more common than undamped or...

Please provide an example of a damped harmonic oscillator. They are more common than undamped or simple harmonic oscillators. What do you think there is any harmonic motion in the physical world that is not damped harmonic motion? Try to make a list of five examples of undamped harmonic motion and damped harmonic motion. Which list was easier to make? Why are the group of the peoples in general ordered to “route step” (walk out of step) across a bridge?

A simple harmonic oscillator has a frequency of 11.1 Hz. It is oscillating along x, where...

A simple harmonic oscillator has a frequency of 11.1 Hz. It is oscillating along x, where x(t) = A cos(ωt + δ). You are given the velocity at two moments: v(t=0) = 1.9 cm/s and v(t=.1) = -18.1 cm/s. 1) Calculate A. 2) Calculate δ.