An electron is trapped in ais absorbed, the electron is in the n = 6 energy level. What was the wavelength of the absorbed photon?one-dimensional box that is 501 nm wide. Initially, it is in the n = 3 energy level but, after a photonwavelength:Eventually, the electron ends up in the ground state. As it does so, one or more photons are emitted during those transitions.Find the wavelengths of the least energetic and most energetic photons that might be emitted during all the possible transitionsto the ground state.wavelength of least energetic photon:mwavelength of most energetic photon:mm

**As per our company guidelines we are supposed to solve only one question (if there are multiple…

Answered: An electron is trapped in a…

Similar questions

Light of constant intensity but varying wavelength was used to illuminate the cathode in a photoelectriceffect experiment. The graph shows how the stopping potential depended on the frequency of the light. What is the work function, in eV, of the cathode?
A photon of wavelength 200 nm is scattered by an electron that is initially at rest. Which one of the following statements concerning the wavelength of the scattered photon is true? Question 25 options: The wavelength is zero nm. The wavelength is greater than 200 nm. The wavelength is 200 nm. The wavelength is less than 200 nm, The wavelength is less than 100 nm but greater than zero.
(a) If the wavelength of an electron is 4.77 ✕ 10−7 m, how fast is it moving? ______ km/s (b) If the electron has a speed equal to 3.50 ✕ 106 m/s, what is its wavelength? ______m.
In an experiment similar to that of Franck and Hertz, deuterium (a proton and a neutron in the nucleus) is bombarded with a beam of electrons and excitation potentials of 10.2V and 12.1V are obtained. a) Explain the observation of three different spectral lines of emission that accompany these excitations. Suggestion: Draw an energy level diagram. b) Determine the wavelengths of the observed spectral lines.
An x ray with a wavelength of 0.100 nm collides with an electron that is initially at rest. The electrons final wavelength is 0.110 nm. What is the final kinetic energy of the electron?
X-rays with an energy of 400 keV undergo Compton scattering from a target. The scattered rays are deflected at an angle of 32.0° relative to the direction of the incident rays. What is the energy of the scattered x-rays? a. 3.58E+2 keV b. 4.00E+2 keV c. 3.37E+3 keV d. 3.23E+2 keV
Electrons striking the back of a conventional TV screen travel at a speed of about 2.7 ✕ 107 m/s. What is their de Broglie wavelength (in nm)?
A photon of wavelength 0.90638 nm strikes a free electron that is initially at rest. The photon is scattered straight backward. What is the speed of the recoil electron after the collision? V = i ! m/s
Chapter 38, Problem 039 Through what angle must a 160 kev photon be scattered by a free electron so that the photon loses 12% of its energy? The electron Compton wavelength is 2.43 x 10-12 m. Number Units
What is the kinetic energy of an electron in a TEM having a 0.0100-nm wavelength?
According to this question, what is the threshold frequency and what is the kinetic energy of the ejected electron?
In a TV tube an electric potential difference accelerates electrons from a rest position towards a screen. Just before reaching the screen, the electrons have a wavelength of 1.2×10−11m1.2×10-11m. Determine the kinetic energy of the electrons just before they reach the screen. Your final answer should have units of eV.

An electron is trapped in a one-dimensional box that is 501 nm wide. Initially, it is in the n = 3 energy level but, after a photon is absorbed, the electron is in the n = 6 energy level. What was the wavelength of the absorbed photon? wavelength: m