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1. A photon of energy E = 0.4 MeV initially moving in the x-direction scatters at...
a.) A photon with kinetic energy equal to the mass energy of an electron scatters from an electron at angle ( pi/2). Find the wavelength of the scattered photon. b.) A photon with kinetic energy equal to the mass energy of an electron scatters from an electron at angle ( pi ). Find the wavelength of the scattered photon.
An X-ray of energy 152 keV scatters off an electron (initially at rest) at an angle of37 degree. What is the frequency of the scattered photon in Hz? What is its wavelength in nm? What is the energy of the electron after the reaction, in keV?
that the scattering angle of the photon is twice the 2. A 0.700-MeV photon scatters off a free electron such that the scattering angre scattering angle of the electron, as shown in the figure below. a. Determine the scattering angle for the electron. Hint: use relativistic momentu b. Determine the final speed of the electron. C. What is the Compton shift in the photon's wavelength? Hint: use relativistic momentum for the electron 9-20
7. An x-ray photon with wavelength of 1.92 pm scatters off of an electron at rest, deflecting through an angle of 120°. What's the scattered photon's frequency?
A 20.0 pm x-ray photon scatters off a free electron at A (see the figure below), producing a photo of wavelength i' traveling at an angle 8 = 45.0° relative to the first photon's direction. This second photon scatters of another free electron at B, producing a photon with wavelength "and moving in a direction directly opposite the first phaton. Determine the wavelengths X and X, both in pm. HINT Electron 1 A" Electron 2 o 7.100 Xpm X pm
In Compton scattering a photon collides with an electron that is initially at rest. (a) Rank the following quantities in order from largest to smallest. If any two quantities are the same, state this. Explain how you made your ranking. (i) The wavelength of an x-ray photon (ii) The change in wavelength of an x-ray photon in Compton scattering when it scatters through an angle of 0° (that is, the photon continues in the same direction as its initial motion)...
An η meson, whose rest energy is 548 MeV, is moving in the Lab frame with a total energy of 685 MeV in the +x-direction. It decays into two photons a) What is the momentum of the n before the decay? b) What is the velocity of the n before the decay? c) Given that one of the photons is detected going in the +x-direction (this is one of many possible scenarios), find its energy and the energy and direction...
A photon with wavelength 0.1365 nm scatters from an electron that is initially at rest. What must be the angle between the direction of propagation of the incident and scattered photons if the speed of the electron immediately after the collision is 9.00×106 m/s ?
A photon of wavelength 4.18 pm4.18 pm scatters at an angle of
152∘152∘ from an initially stationary, unbound electron. What is
the de Broglie wavelength of the electron after the photon has been
scattered?
A photon of wavelength 4.18 pm scatters at an angle of 152° from an initially stationary, unbound electron. What is the de Broglie wavelength of the electron after the photon has been scattered? de Broglie wavelength: pm
A photon moving in the +x-direction, scatters off a free stationary electron. The wavelength of the incident photon is 0.0410 nm. After the collision, the electron moves at an angle α below the +x-axis, while the photon moves at an angle θ = 73.3° above the +x-axis. (For the purpose of this exercise, assume that the electron is traveling slow enough that the non-relativistic relationship between momentum and velocity can be used.) (a) What is the angle α (in degrees)?...