Question

The emission spectrum of hydrogen has a line at a wavelength of 922.6nm. A) Calculate the...

The emission spectrum of hydrogen has a line at a wavelength of 922.6nm.
A) Calculate the energy change for the electron transition that corresponds to this line.
B) This line is actually in the Paschen series. What are the initial and final values of n for the electron transition that corresponds to this line?

Homework Answers

Know the answer?
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for?
Ask your own homework help question
Similar Questions
The hydrogen atomic emission spectrum includes a UV line with a wavelength of 92.323 nm. Photons...
The hydrogen atomic emission spectrum includes a UV line with a wavelength of 92.323 nm. Photons of this wavelength are emitted when the electron transitions to nf = 1 as the final energy state. Show all steps and round answers to correct sig figs. a) Is this line associated with a transition between different excited states or between an excited state and the ground state? b) What is the energy of the emitted photon with wavelength 92.323 nm? c) What...
Calculate the energy and wavelength of the second line in the Lyman series. What are the...
Calculate the energy and wavelength of the second line in the Lyman series. What are the values of n for the levels the electron is jumping between? Calculate the energy and wavelength of the first line in the Balmer series. What are the values of n for the levels the electron is jumping between? For the first line of the Paschen series, what are the initial and final energy levels?
The wavelength 6.577 x 10^-5 cm is observed in the atomic emission spectrum of hydrogen. a....
The wavelength 6.577 x 10^-5 cm is observed in the atomic emission spectrum of hydrogen. a. Show that this is a transition line in the Balmer Series. b. What is the wavelength of the next higher-energy line?
An orange emission line is observed at 656.3 nm in the hydrogen emission spectrum. Determine the...
An orange emission line is observed at 656.3 nm in the hydrogen emission spectrum. Determine the initial energy level of the electron.
(b). Determine the (i) longest and (ii) shortest wavelength lines (in nanometers) in the Paschen series...
(b). Determine the (i) longest and (ii) shortest wavelength lines (in nanometers) in the Paschen series of the hydrogen spectrum. In which region of the spectrum is the shortest- wavelength line? (c) Using the Balmer-Rydberg equation, calculate the value of n corresponding to the violet emission line (wavelength = 434.0 nm) in the Balmer series of the hydrogen emission spectrum.
A red line is observed at 656.3 nm in the spectrum of atomic hydrogen. Determine the...
A red line is observed at 656.3 nm in the spectrum of atomic hydrogen. Determine the values of n for the beginning (n1) and ending (n2) energy levels of the electron during the emission of energy that leads to this spectral line.
Calculate the wavelength, in nanometers, of the spectral line produced when an electron in a hydrogen...
Calculate the wavelength, in nanometers, of the spectral line produced when an electron in a hydrogen atom undergoes the transition from the energy level n = 7 to the level n = 1.
Calculate the wavelength (in nm) of a photon emitted during a transition corresponding to the first...
Calculate the wavelength (in nm) of a photon emitted during a transition corresponding to the first line in the Balmer series (nf = 2) of the hydrogen emission spectrum.
A wavelength of 18.611 µm is observed in a hydrogen spectrum for a transition that ends...
A wavelength of 18.611 µm is observed in a hydrogen spectrum for a transition that ends in the nf = 10 level. What was ni for the initial level of the electron?
Calculate the energy of the emitted photon as well as the wavelength and frequency of electromagnetic...
Calculate the energy of the emitted photon as well as the wavelength and frequency of electromagnetic radiation emitted from the hydrogen atom when the electron undergoes the transition from n = 5 to n = 1. In what region of the spectrum does this line occur?