Consider a Bohr model of doubly ionized lithium.
(a) Write an expression similar to En = -13.6 eV/n2 ? E2 = -13.6eV/22 = -3.40 eV for the energy levels of the sole remainingelectron. (Use the following as necessary: n.)
En = eV

(b) Find the energy corresponding to n = 4.

Your response differs from the correct answer by more than 10%.Double check your calculations. eV

(c) Find the energy corresponding to n = 1.

Your response differs from the correct answer by more than 10%.Double check your calculations. eV

(d) Calculate the energy of the photon emitted when the electrontransits from the fourth energy level to the first energy level.Express the answer both in electron volts and in joules.
eV
J

(e) Find the frequency and wavelength of the emitted photon.
Hz
nm


please help!

Consider a Bohr model of doubly ionized lithium.
(a) Write an expression similar to En = -13.6 eV/n^2 ? E2 = -13.6eV/22 = -3.40 eV for the energy levels of the sole remainingelectron. (Use the following as necessary: n.)
En = eV

(b) Find the energy corresponding to n = 5.

answer in eV

(c) Find the energy corresponding to n = 1.

answer in eV

(d) Calculate the energy of the photon emitted when the electrontransits from the fifth energy level to the first energy level.Express the answer both in electron volts and in joules.
-answer in eV
-answer in J

(e) Find the frequency and wavelength of the emitted photon.
-answer in Hz
-answer in nm

Consider a Bohr model of doubly ionized lithium.

(a) Write an expression similar to En = -13.6 eV/n^2 ? E2 = -13.6eV/2^2 = -3.40 eV for the energy levels of the sole remainingelectron. (Use the following as necessary: n.)
En =_______eV

^no clue what this questions asking..

(b) Find the energy corresponding to n = 5.

________
(c) Find the energy corresponding to n = 2.

________
(d) Calculate the energy of the photon emitted when the electrontransits from the fifth energy level to the second energy level.Express the answer both in electron volts and in joules.
_______eV
_______J

(e) Find the frequency and wavelength of the emitted photon.
_____Hz
_____nm

(f) In what part of the spectrum is the emitted light?
ultraviolet region
gamma ray region
visible light region
infrared region
x-ray region

For parts a) and b) consider a doubly ionized lithium atom (Li , ).2 3
+ = Z
(a) Find the radius and energy of the electron in the n = 3 stateof this atom.

(b) This electron now jumps to the n = 2 state. How the wavelengthof emitted photon in this transition does compares to a photonemitted by the same transition in hydrogen atom? (calculate theratio)

(c) The electron in a hydrogen atom with an energy of -0.544 eV isin a subshell with 18 states. Find the corresponding principalquantum number n.

(d) An electron drops from the L shell to the K shell and gives offan X-ray with a wavelength of 0.0205 nm. What is the atomic numberof this atom?