Derive the equation of path for a 2D isotropic harmonic oscillator and explain Lissajous curves?

derive energy of harmonic oscillator using power series method

derive energy of harmonic oscillator using power series method

Derive the equation for the FHM (Forced Harmonic Motion). Explain and Sketch

Derive the equation for the FHM (Forced Harmonic Motion). Explain and Sketch

5) Unlike the particle in the 1D box and the harmonic oscillator, the energy of the...

5) Unlike the particle in the 1D box and the harmonic oscillator, the energy of the ground state of the 2D rigid rotor is zero. What is the difference between these cases that allows the energy to be zero for the rigid rotor in 2D?

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

he equation of motion of a simple harmonic oscillator is given by x(t) = (7.4 cm)cos(12πt)...

he equation of motion of a simple harmonic oscillator is given by x(t) = (7.4 cm)cos(12πt) − (4.2 cm)sin(12πt), where t is in seconds.Find the amplitude. m (b) Determine the period. s (c) Determine the initial phase. °

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...

A harmonic oscillator with mass m and force constant k is in an excited state that...

A harmonic oscillator with mass m and force constant k is in an excited state that has quantum number n. 1) Let pmax=mvmaxx, where vmax is the maximum speed calculated in the Newtonian analysis of the oscillator. Derive an expression for pmax in terms of n, ℏ, k, and m. Express your answer in terms of the variables n, k, m, and the constant ℏ 2) Derive an expression for the classical amplitude A in terms of n, ℏ, k,...

Write a matrix that corresponds to a finite difference approximation to the harmonic oscillator Hamiltonian. Make...

Write a matrix that corresponds to a finite difference approximation to the harmonic oscillator Hamiltonian. Make sure to explain your notation. Use periodic boundary conditions.

A quantum mechanical simple harmonic oscillator has a 1st excited state with energy 3.3 eV and...

A quantum mechanical simple harmonic oscillator has a 1st excited state with energy 3.3 eV and there are eight spin 1⁄2 particles in the oscillator. How much energy is needed to add a ninth electron. Explain and show your work.

A quantum mechanical simple harmonic oscillator has a 1st excited state with energy 3.3 eV and...

A quantum mechanical simple harmonic oscillator has a 1st excited state with energy 3.3 eV and there are eight spin-1/2 particles in the oscillator. How much energy is needed to add a ninth electron. Explain and show your work