Calculate the separation between energy levels for an anharmonic quantum oscillator.

how to calculate ground state for N and N+1 electrons quantum dot and plot grap between...

how to calculate ground state for N and N+1 electrons quantum dot and plot grap between number of electrons vs energy. if you can comsider electrons are parabolic simple harmonic oscillator quantum confirment.

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

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

In the simplest quantum mechanical model of energy levels of a conducting polymer, how long must...

In the simplest quantum mechanical model of energy levels of a conducting polymer, how long must the polymer chain be for the gap between the HOMO and LUMO levels to be smaller than room temperature thermal energies?

In the simplest quantum mechanical model of energy levels of a conducting polymer, how long must...

In the simplest quantum mechanical model of energy levels of a conducting polymer, how long must the polymer chain be for the gap between the HOMO and LUMO levels to be smaller than room temperature thermal energies?

Find the eigenstates and energies for a 3-D quantum harmonic oscillator as we did for the...

Find the eigenstates and energies for a 3-D quantum harmonic oscillator as we did for the 3-D infinite square well case. In both cases there are 3 distinct n values with a label for the x, y, or z coordinate. Compare the degeneracies of the first 3 distinct energy levels of these two systems.

1) A quantum harmonic oscillator with frequency ωcontains 41 electrons. What is the energy of the...

1) A quantum harmonic oscillator with frequency ωcontains 41 electrons. What is the energy of the highest-energy electron? Assume that the electrons are in the lowest states possible. 2 a) An atom has a total of 18 electrons. What is the principal quantum number of the outermost shell? 2 b) How many electrons does the outermost shell shell contain? 3) Which of the following represents the possible range of integer values for the magnetic quantum number? a) 1 to l...

A certain quantum mechanical system has the energy levels shown in the accompanying diagram. The energy...

A certain quantum mechanical system has the energy levels shown in the accompanying diagram. The energy levels are indexed by a single quantum number n that is an integer. ( a ) As drawn, which quantum numbers are involved in the transition that requires the most energy? ( b ) Which quantum numbers are involved in the transition that requires the least energy? ( c ) Based on the drawing, put the following in order of increasing wavelength of the...

(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?