What is the wavelength of the most energetic photon that can be emitted from a muonic atom with Z = 1? %3D
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- 1. Show that the frequency of the photon emitted by a hydrogen atom in going from state n + 1 to n is always intermediate between the frequencies of revolution of the electron in the two orbits. 2. A µ − muon is in the n = 2 state of a muonic atom whose nucleus is a proton.Find the wavelength of the photon emitted when the muonic atom drops to its ground state. Consider nuclear motion in your calculation. Values for certain constants:h = 6.626 × 10 −34 Js, E 1 = −13.6 eV, r 1 = 5.29 × 10 −11 m, 1 eV = 1.602 × 10 −19 J.4. Using the doppler formula calculate for the missing values. 5 MHz probe, 1.5KHZ shift, 2.5 MHz probe, 1.5KHZ shift, 7.5.MHz probe, 1.5KHzshift, 1.5KHzshift, 1.5KHzshift, V= 60degree angle, 60 degree angle, 60 degree angle, 45 degree angle, 60 degree angle, а. b. V= V= C. d. Fo, V= 40 cm/s Fo, V= 30 cm/s е.An electron in the n = 9 energy level of hydrogen undergoes a transition to the n = 5 energy level. Determine the energy in eV, the energy in joules, and the frequency of the emitted photon (a) the energy in eV (eV) (b) the energy in joules (J) (c) the frequency of the emitted photon (Hz)
- 2. A photon is emitted from a hydrogen atom that undergoes an electronic transition from the state n=3 to the state n =2. Calculate (a) the energy, (b) the wavelength, and (c) the frequency of the emitted photon.4. Using the doppler formula calculate for the missing values. V= 5 MHz probe, 1.5KHZ shift, 2.5 MHz probe, 1.5KHZ shift, 7.5.MHz probe, 1.5KHzshift, 1.5KHzshift, 1.5KHzshift, 60degree angle, 60 degree angle, 60 degree angle, 45 degree angle, 60 degree angle, а. b. V= V= С. d. Fo, V= 40 cm/s Fo, V= 30 cm/s е.4. Cakulate the radius of orbit of an electron moving around a hydrogen atom with an energy of -13.6ev. If a photon of energy 10.2ey hits electron and losses all its energy to the electron, cakulate the new radius of orbit. What frequency of light will be emitted if the above electron changes it orbital radius to its old value?
- 11. Draw the Feynman diagram for Compton scattering. 12. Draw the Feynman diagram for pair production, + → e+ + e¯.2. The emission spectrum for sodium below shows two bright lines at frequency 1(f ) and frequency 2(f ). The difference in energy between Frequency 1 and Frequency 2 can be determined with what formula using the frequencies (f and f ) and Planck’s constant (h)? answer choices are in the images attached!!Physics 6. particle in a box: Explain/define the terms that make up the expression for the total energy of this system (do not simply state the numerical values for each term, you do not need to explain Planck’s constant).