Electromagnetic radiation with 0.8 MeV of energy is scattered from stationary electrons. The scatterd photons have...

Compton used photons of wavelength equal yo 0.0711 nm a) whats is the energy of these...

Compton used photons of wavelength equal yo 0.0711 nm a) whats is the energy of these photons? b) whats is the wavelength of the scattered photons at an angle of 180°( back scatter case ). c) what is the energy of the electrons scattered backwards?

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.

Q. Electrons are accelerated in a television tube through a potential difference of 9.8 kV. Find...

Q. Electrons are accelerated in a television tube through a potential difference of 9.8 kV. Find the highest frequency and minimum wavelength of the electromagnetic wave emitted, when theses electrons strike the screen of the tube. In which region of the spectrum will these waves lie?   and Q. High energy photons ( y -rays) are scattered from electrons initially at rest. Assume the photons are backscatterred and their energies are much larger than the electron’s rest-mass energy, E >> m0c2...

X rays that have wavelengths of 0.125 nm are scattered off free electrons at an angle...

X rays that have wavelengths of 0.125 nm are scattered off free electrons at an angle of 45.0∘∘. 1) Calculate the wavelength of the scattered electromagnetic radiation. (Express your answer to four significant figures.) answer is: 125 nm 2) Calculate the fractional wavelength change (Δλ/λi=(λf−λi)/λiΔλ/λi=(λf−λi)/λi) for the scattered X rays. (Express your answer to three significant figures.)

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?

An electron and an antielectron (positron) each have a rest energy of 0.511 MeV , or...

An electron and an antielectron (positron) each have a rest energy of 0.511 MeV , or approximately 8.2×10-14 J . When an electron and a positron are both stationary and located next to each other during an annihilation process, their mass energy converts to electromagnetic energy released as photons, electromagnetic particles that have momentum but no mass and that travel at the speed of light. What is the minimum number of photons that could be released, and how much energy...

Photons of energy 1.2 MeV impart on a carbon target. Under which angle are photons of...

Photons of energy 1.2 MeV impart on a carbon target. Under which angle are photons of wavelength 0.004 nm detected?

The number of photons of electromagnetic radiation with a frequency 5.0 MHz that have a total...

The number of photons of electromagnetic radiation with a frequency 5.0 MHz that have a total energy of 3.0 J is .

Part A calculate the energy of a photon of electromagnetic radiation whose frequency is 6.78x10^12 s-1...

Part A calculate the energy of a photon of electromagnetic radiation whose frequency is 6.78x10^12 s-1 Part B calculate the energy of a photon of radiation whose wavelength is 325 no Part C what wavelength of radiation has photons of energy 2.81x10^-18 J

Consider an incident beam of 10^4, 2.4 MeV photons on a block of carbon of thickness...

Consider an incident beam of 10^4, 2.4 MeV photons on a block of carbon of thickness 3 × 10^23electrons/cm^2(or 5 × 10^22atoms/cm^2). A. The primary interaction between the photon beam and the block of carbon is Compton scattering. What is one way you could determine this? State a useful coefficient for this interaction. B. What is the number of Compton interactions? C. How much energy is diverted from the incident beam? D. Calculate the energy transferred to the kinetic energy...