What are the degeneracies of the first four energy levels for a particle in a three...

Use the particle in a box energy equation to calculate the energy levels for a proton...

Use the particle in a box energy equation to calculate the energy levels for a proton and electron at 100 Pico meters for both. What are the energy levels for the proton at 1a(atto)m? What are the energy levels for the electron at 10fm?

which system does not have a zero point energy? a. particle in one dimensional box (b)....

which system does not have a zero point energy? a. particle in one dimensional box (b). one dimensional harmonic oscillator. (c) two particle rigid rotor d) hydrogen atom

11. In a three dimensional box, energy is given by the following formula. If all n1=n2=n3=1...

11. In a three dimensional box, energy is given by the following formula. If all n1=n2=n3=1 . the energy levels will degenerate. how could you remove this degeneracy in energy levels.

I want you to compare particle in a box with the Bohr atom. For the particle...

I want you to compare particle in a box with the Bohr atom. For the particle in the box you can assume the size is .5x10^-10 m and the particle that is trapped is an electron. For the Bohr atom consider a hydrogen atom. a.) What is the energy of photon emitted when the electron drops from 3->2 and 2->1 in the particle in a box? b.) What is the energy of photon emitted when the electron drops from 3->2...

Consider the first three energy levels of hydrogen (n = 1, 2, 3). a) What photon...

Consider the first three energy levels of hydrogen (n = 1, 2, 3). a) What photon energies can be observed from transitions between these levels? Label these in increasing order as E1, E2, and E3. b) A hydrogen atom which is initially in the n = 2 level collides with an aluminum atom in its ground state (the kinetic energy of the collision is nearly zero). The hydrogen can drop to the n = 1 level and ionize the aluminum...

An electron is confined in a one-dimensional box 1nm long. How many energy levels are there...

An electron is confined in a one-dimensional box 1nm long. How many energy levels are there with energy between 10 eV and 100 eV?

An electron confined to a one-dimensional box has energy levels given by the equation En=n2h2/8mL2 where...

An electron confined to a one-dimensional box has energy levels given by the equation En=n2h2/8mL2 where n is a quantum number with possible values of 1,2,3,…,m is the mass of the particle, and L is the length of the box.    Calculate the energies of the n=1,n=2, and n=3 levels for an electron in a box with a length of 180 pm . Enter your answers separated by a comma. Calculate the wavelength of light required to make a transition...

Describe briefly what is meant by Free particle Potential Step Potential Well a) particle in a...

Describe briefly what is meant by Free particle Potential Step Potential Well a) particle in a box (infinite wall) b) particle in a finite wall 4.Potential Barrier (Particle tunneling through potential barrier) Give a physical example of each case. Also describe their energy levels.

The first four energy levels for an atom are: E1 = -8.57 eV   E2 = -2.14...

The first four energy levels for an atom are: E1 = -8.57 eV   E2 = -2.14 eV   E3 = -0.95 eV E4 = -0.54 eV An electron with a kinetic energy of 7.74 eV collides with an electron in its ground state. After the collision, the atom is in an excited state and the electron is scattered. The kinetic energy of the scattered electron could be I have been struggling with this question, help asap would be highly appreciated. Thank...

If a particle is trapped in a finite one-dimensional box with a width of 2.0 nm...

If a particle is trapped in a finite one-dimensional box with a width of 2.0 nm and a depth of 2.0 eV, what energy level is it constrained in this box?