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The degeneracy of the second energy level of three-dimensional box is Select one: 0.4 b.1 C....
The degeneracy of the second energy level of three-dimensional box is Select one: 0.4 b.1 C. 3 O d.5 e. 2 2 Evaluate the kinetic energy of a free proton described by the wavefunction e k = 5 nm Mass of an electron - 9.1 x 10 31 kg out of Select one
Evaluate the linear momentum and kinetic energy for a free proton described by the wavefunction e-kx with k = 5 nm-1 .
What is the lowest energy level, in electron volts (eV), of an electron in a one-dimensional box of atom size, 0.397 nm in width? Number Find the lowest energy level, in units of a million electron volts (MeV), of a proton in a one-dimensional box of nucleus size, with a width of 1.01 x10-4 m? Number MeV
2. (a) When a particle of mass 1.0 x 10-26 g in a one-dimensional box goes from the n=3 level to n=1 level, it emits a radiation with frequency 5.0 x 1014 Hz. Calculate the length of the box. (b) Suppose that an electron freely moves around inside of a three-dimensional rectangular box with dimensions of 0.4 nm (width), 0.4 nm (length), and 0.5 nm (height). Calculate the frequency of the radiation that the electron would absorb during its transition...
nh 61. The energy for one-dimensional particle-in-a-box is E=" 1. For a particle in a 0 three-dimensional cubic box (Lx=Ly=L2), if an energy level has twice the energy of the ground state, what is the degeneracy of this energy level? (B) 1 (C)2 (D) 3 (E) 4 (A) 0
4. An electron is in a one-dimensional box in the n-1 state. Its energy is equal to that of a 600 nm photon. a. What is the energy of the photon? b. What is the length of the box if the electron has the same energy of the photon? c. What is the lowest energy possible for a proton in this box?
Consider an electron in a one-dimensional box of length 0.16 nm. (a) Calculate the energy difference between the n = 2 and n = 1 states of the electron. (b) Calculate the energy difference for a N2 molecule in a one-dimensional box of length 11.2 cm.
What is the length of a one-dimensional box if an electron requires a wavelength of 6350 nm to be excited from the n = 2 to the n = 3 energy level?
Please answer below question (A-C). Thank you
3 attempts lett Check my work te the difference in energy between the n -2 and n-1 states of an electron in a one- (a) Calcula dimensional box with a length of 0.50 nm. x 10.J (b) Caleulate the difference in energy between the n - 2 and n -1 states for an oxygen molecule in a one-dimensional box with a length of 10 cm x 10J (c) What do the different values...
Part A Compute the energy separation between the ground and second excited states for an electron in a one-dimensional box that is 7.70 angstroms in length. Express the energy difference in kJ⋅mol−1. Express your answer to three significant figures and include the appropriate units. Part B Compute the wavelength of light (in nm) corresponding to this energy. Express your answer to three significant figures and include the appropriate units.