In a Compton collision between a 10 MeV photon and an electron, the energy of the...

a 1.332-MeV photon from Co-60 was scattered by an electron at an angle of 140 degrees....

a 1.332-MeV photon from Co-60 was scattered by an electron at an angle of 140 degrees. (a) Calculate the energy acquired by the recoil electron. (b) What is the recoil angle of the electron? (c) What is the maximum fraction of its energy that this photon could lose in a single Compton scattering?

A 570-keV gamma ray Compton-scatters from an electron. Find the energy of the photon scattered at...

A 570-keV gamma ray Compton-scatters from an electron. Find the energy of the photon scattered at 104°, the kinetic energy of the scattered electron, and the recoil angle of the electron. E'photon = keV KE'electron = keV ϕ = °

A 640-keV gamma ray Compton-scatters from an electron. Find the energy of the photon scattered at...

A 640-keV gamma ray Compton-scatters from an electron. Find the energy of the photon scattered at 101°, the kinetic energy of the scattered electron, and the recoil angle of the electron. E'_photon = ___keV KE'_electron = ____keV ϕ = ____ °

In Compton scattering between a photon and a stationary electron, most energy is transferred to the...

In Compton scattering between a photon and a stationary electron, most energy is transferred to the electron when the photon is deflected by an angle of 0°. True O False Question 2 (5 points

Gamma rays of photon energy 0.348 MeV are directed onto an aluminum target and are scattered...

Gamma rays of photon energy 0.348 MeV are directed onto an aluminum target and are scattered in various directions by loosely bound electrons there. (a) What is the wavelength of the incident gamma rays? (b) What is the wavelength of gamma rays scattered at 100° to the incident beam? (c) What is the photon energy of the rays scattered in this direction? The electron Compton wavelength is 2.43 × 10-12 m.

In a head-on collision of an electron of kinetic energy of 2.044 MeV with a positron...

In a head-on collision of an electron of kinetic energy of 2.044 MeV with a positron at rest, the two particles are replaced by two photons of equal energy. If each photon is traveling at an angles θ with respect to the electron’s direction of motion, What is the energy E, momentum p (you can leave the answer in terms of c) and angle of θ of each photon? (For electron and positron mc2 = 0.511 MeV)

An X-Ray photon with an energy of E = 128 keV undergoes Compton Scattering at an...

An X-Ray photon with an energy of E = 128 keV undergoes Compton Scattering at an angle of θ = 33°. What is the wavelength (λ0) of the incident photon (in nm)? Use h = 4.136 x 10-15 eVs and c = 3 x 108 m/s. What is the wavelength (λ') of the scattered photon (in nm)? What is the energy (E’) if the scattered photon (in keV)? Use h = 4.136 x 10-15 eVs and c = 3 x...

In the Compton effect, a 0.133 nm photon strikes a free electron in a head-on collision...

In the Compton effect, a 0.133 nm photon strikes a free electron in a head-on collision and knocks it into the forward direction. The rebounding photon recoils directly backward. Use conservation of (relativistic) energy and momentum to determine the kinetic energy of the electron. Use the equation p=E/c=hf/c=h/λ. K =    eV Determine the wavelength of the recoiling photon. λ′ =    nm

A 200 keV photon scatters from a free electron. The scattered photon has 10% less energy...

A 200 keV photon scatters from a free electron. The scattered photon has 10% less energy than the original photon. (a) Through what angle has the photon been scattered? (b) What is the kinetic energy of the scattered electron?{44o}

In the Compton effect, a 0.128 nm photon strikes a free electron in a head-on collision...

In the Compton effect, a 0.128 nm photon strikes a free electron in a head-on collision and knocks it into the forward direction. The rebounding photon recoils directly backward. Part A Use conservation of (relativistic) energy and momentum to determine the kinetic energy of the electron. Use the equation p=Ec=hfc=h?. K = eV Part B Part complete Determine the wavelength of the recoiling photon. ?? = 0.133 nm