According to Schrodinger's model for the hydrogen atom given that the z-component of the orbital angular...

what feature of the operators H(Hamiltonian) L^2 (orbital angular momentum)and Lz(z-component of the orbital angular momentum)makes...

what feature of the operators H(Hamiltonian) L^2 (orbital angular momentum)and Lz(z-component of the orbital angular momentum)makes it possible for E, L^2 and Lz to have definite non-zero values in the coulomb model hydrogen atom state? discuss whether any state of a hydrogen atom can exist that has definite non-zero values for E, L^2 and Lx

An electron in a hydrogen atom is in a state with n = 3.Find the orbital...

An electron in a hydrogen atom is in a state with n = 3.Find the orbital angular momentum and z component of the orbital angular momentum for each possible value of ℓ and m for the electron. (Use the following as necessary: ℏ. Enter your answers as comma-separated lists. Give exact answers. Do not round.) L = Lz =

The electron in a hydrogen atom with an energy of -0.544 eV is in a subshell...

The electron in a hydrogen atom with an energy of -0.544 eV is in a subshell with 18 states. A. What is the principal quantum number, n, for this atom? n = b. What is the maximum possible orbital angular momentum this atom can have? L= c. Is the number of states in the subshell with the next lowest value of ℓℓ equal to 16, 14, or 12? d. explain part (c.)

-Calculate the magnitude of the maximum orbital angular momentum Lmax for an electron in a hydrogen...

-Calculate the magnitude of the maximum orbital angular momentum Lmax for an electron in a hydrogen atom for states with a principal quantum number of 8. Express your answer in units of ℏ to three significant figures. -Calculate the magnitude of the maximum orbital angular momentum Lmax for an electron in a hydrogen atom for states with a principal quantum number of 48. Express your answer in units of ℏ to three significant figures. -Calculate the magnitude of the maximum...

An electron in a hydrogen atom is in a state with n = 5. Find the...

An electron in a hydrogen atom is in a state with n = 5. Find the orbital angular momentum and z component of the orbital angular momentum for each possible value of ℓ and m for the electron. (Use the following as necessary: ℏ. Enter your answers as comma-separated lists. Give exact answers. Do not round.) L = ______ Lz = _______

Question Part Submissions Used 1 0/2 Suppose that one measures the magnitude of the total orbital...

Question Part Submissions Used 1 0/2 Suppose that one measures the magnitude of the total orbital angular momentum of the hydrogen atom and obtains the result 3.65 x 10-34 J-s. Suppose the z-component of the orbital angular momentum and the energy of the hydrogen atom were simultaneously measured. Which of the following measurement result possibilities would not have been obtained? 1. Lz=0 2.E=-1.5 eV 3. E=-0.85 eV 4. Lz=-3.17 x 10-34 J-s

A hydrogen atom has an angular momentum 5.275 x 10 ^ -34 kg * m^2/s  According to...

A hydrogen atom has an angular momentum 5.275 x 10 ^ -34 kg * m^2/s  According to the Bohr model, determine: A) The number of the orbit (main quantum number) B) The energy (eV) associated with this state. C) The radius of this orbit. D) The speed of the electron associated with this orbit. e) If a transition occurs from this state to the base state (n = 1), what is the energy that the photon has during the transition? f))....

A hydrogen atom stays in the 3rd excited state (n = 4). Consider of the quantum...

A hydrogen atom stays in the 3rd excited state (n = 4). Consider of the quantum behavior of the electron, but ignore the quantum behavior of the nucleus. (a) What are the possible values for the quantum number l and what are the corresponding orbitals? Write down the magnitude of each orbital angular momentum (in units of ħ). (b) For each value of l, what are possible values for the quantum number ml and the magnitude of the z component...

For the 3d state (orbital) of the hydrogen atom, the principal quantum number n=3. The orbital...

For the 3d state (orbital) of the hydrogen atom, the principal quantum number n=3. The orbital quantum number l = 2. For an electron with these quantum numbers, what is the smallest angle (in degrees) that an electron's spin axis (angular momentum axis) can make with respect to an applied magnetic field?

Answer the following questions using the Bohr model of the hydrogen atom. a) A hydrogen atom...

Answer the following questions using the Bohr model of the hydrogen atom. a) A hydrogen atom is the n = 3 excited state when its electron absorbs a photon of energy 4.40 eV. Draw a diagram roughly to scale, of relevant energy levels for this situation. Make sure to show and label the initial energy of the H atom in the n=3 state, the energy level at which this atom loses its electron, and kinetic energy of the electron. b)What...