Answer to Question #108339 in Quantum Mechanics for Shivi

The energy levels of bound harmonic oscillator are

"(1)E_n=h\\nu\\cdot (n+\\frac{1}{2}), n=0,1,2,..."

The ground state must correspond to a stable particle - the proton and its rest energy. Proton has rest energy "\u03f5=938MeV" This value corresponds to the oscillator frequency, which can be found from the equality of the ground state energy and the photon quantum

"\\frac12\u200bh\u03bd=\u03f5;"

"\u03bd=\\frac{2\u03f5}h\u200b=\\frac{9,38\\times10^8eV}{4.14\\times10^{\u221215}eVs}\u200b=4.53\\times10^{23}Hz"

The value of the Planck constant bar expressed in various quantities can be found in [1].

The first excited states have energy "E_n=\\frac{3}{2}\\cdot h\\nu=3\\epsilon=2.81\\cdot 10^3 MeV"

Answer: The energy of ground and first excited states of proton are 938 MeV

and "2.81\\times10^3MeV"