please solve both part as soon as possible. For a simple harmonic oscillator (SHO) of mass 45g vibrating at a frequency of 2.4 Hz(vibrations per second) with an amplitude 0.040 m:(a) Determine the force constant (ki) of the spring.Given: The fundamental vibration frequency of a simple harmonic oscillator is1v=(k, / m), where kç and m are the force constant and the oscillating mass,2nrespectively.(b)What would be the quantum number v if the system were treated quantum-mechanically?Comment on your result.Given: Energy of a simple harmonic oscillator can be approximated ask, x (amplitude).

a) Mass of the Simple Harmonic Oscillator, m=45 g=0.045 kg Frequency of the oscillator, f=2.4 Hz…

For a simple harmonic oscillator (SHO) of mass 45g vibrating at a frequency of 2.4 Hz (vibrations per second) with an amplitude 0.040 m: (a) Determine the force constant (kr) of the spring. Given: The fundamental vibration frequency of a simple harmonic oscillator is v=(k, I m), where k and m are the force constant and the oscillating mass, 27 respectively. (b) What would be the quantum number v if the system were treated quantum-mechanically? Comment on your result. Given: Energy of a simple harmonic oscillator can be approximated as k, x (amplitude).

For a simple harmonic oscillator (SHO) of mass 45g vibrating at a frequency of 2.4 Hz (vibrations per second) with an amplitude 0.040 m: (a) Determine the force constant (kr) of the spring. Given: The fundamental vibration frequency of a simple harmonic oscillator is v=(k, I m), where k and m are the force constant and the oscillating mass, 27 respectively. (b) What would be the quantum number v if the system were treated quantum-mechanically? Comment on your result. Given: Energy of a simple harmonic oscillator can be approximated as k, x (amplitude).

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Question

please solve both part as soon as possible.

For a simple harmonic oscillator (SHO) of mass 45g vibrating at a frequency of 2.4 Hz
(vibrations per second) with an amplitude 0.040 m:
(a) Determine the force constant (ki) of the spring.
Given: The fundamental vibration frequency of a simple harmonic oscillator is
1
v=(k, / m), where kç and m are the force constant and the oscillating mass,
2n
respectively.
(b)
What would be the quantum number v if the system were treated quantum-mechanically?
Comment on your result.
Given: Energy of a simple harmonic oscillator can be approximated as
k, x (amplitude).

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