Question

In: Physics

A photon undergoes Compton scattering on a stationary electron. Before scattering, the photon's frequency is ν0,...

A photon undergoes Compton scattering on a stationary electron. Before scattering, the photon's frequency is ν0, whereas after scattering said frequency is ν. After scattering, the photon's direction of movement is opposite to its original direction (scattering of 180 degrees), and the electron moves at a relativistic speed defined as 'v'.

a) the photon's wavelength before scattering was λ0=1 Angstrom. Calculate frequencies ν0 and v.

b) In this paragraph, ignore the numerical data given in paragraph a) and answer using the variables given in the main question and the physical constants 'me' and 'h' exclusively.

i) what will be the electron's direction of movement after scattering? Give a physical argumentation. Draw the problem, including the direction of movement before and after scattering.

ii) write out a relativistic formula for the conservation of Energy upon scattering.

iii) write out a formula for the conservation of Momentum upon scattering (using the same variables).

c) for the frequencies given in paragraph a), calculate the velocity of the electron, using the formula that you wrote out in paragraph b ii).

d) show that the values that you found in paragraph a) together with the velocity that you found in paragraph c) constitute a solution of the formula that you wrote out in paragraph b) iii).

THANK YOU!

Solutions

Expert Solution

thats all


Related Solutions

This is hard!!! Thanks!! A xray photon undergoes Compton scattering from an electron initially at rest....
This is hard!!! Thanks!! A xray photon undergoes Compton scattering from an electron initially at rest. The photon is incident from the left (-x) and is scattered backwards. a.) draw and label a sketch illustrating this collision. The initial photon energy is = 4keV. Assume that the electron energy after the collision Ee is small. b.) What is the initial photon momentum px,i in the x-direction? c.) What is the final photon momentum in the x-direction px,f after the collision?...
An photon with a wavelength in the X-ray region of 0.69 nm undergoes Compton scattering by...
An photon with a wavelength in the X-ray region of 0.69 nm undergoes Compton scattering by colliding with a free electron. 1) Assume the photon just barely grases the electron, so that the deflect angle, θ, can be considered zero. 1)What is the wavelength of the outgoing photon after the collision? λ' = 2)What the energy of the outgoing photon? Eγ = 3)Now assume the photon deflects off at a small angle of 49o. What is the wavelength of the...
In a Compton scattering experiment, a photon with a wavelength ?=1.50x10-3 nm collide with a stationary...
In a Compton scattering experiment, a photon with a wavelength ?=1.50x10-3 nm collide with a stationary electron. After the collision, the electron recoils at 0.500c a) What is the energy and wavelength of the scattered photon? b) through what angle with respect to the incident direction was the photon scattered? [Hint: Me=0.511 MeV/c2 or Me=9.11x10-31 kg]
Compton ScatteringExercise 10:The equation for Compton scattering of a photon off of an electron is.?′=?+(ℎ??)(1―cos?)If using...
Compton ScatteringExercise 10:The equation for Compton scattering of a photon off of an electron is.?′=?+(ℎ??)(1―cos?)If using nm for wavelength, the quantity (h/mc) is 0.00242631nm (to a ridiculous number of sig figs, but you can round off later.) Notice how λ’ is always bigger than λ, because the scattered photon always has less energy – unless the angle is zero, which means nothing happened.A) Suppose a photon of energy 248eV scatters off of an electron in such a way as to...
1) What is Compton scattering? 2) Derive an equation for the wavelength of a photon scattered...
1) What is Compton scattering? 2) Derive an equation for the wavelength of a photon scattered from a nearly free electron in some target material. 3) Why is Compton scattering not observed for visible wavelengths?
In a photon-electron collision by Compton effect, the photon diffused has an energy of 120 KeV...
In a photon-electron collision by Compton effect, the photon diffused has an energy of 120 KeV as the electron recedes with a kinetic energy of 40 Kev. a) Find the wavelength of the photon incident. b) Find the scattering angle of the photon c) Find the scattering angle of the electron.
In a Compton scattering experiment, an x-ray photon scatters through an angle of 22.2° from a...
In a Compton scattering experiment, an x-ray photon scatters through an angle of 22.2° from a free electron that is initially at rest. The electron recoils with a speed of 2,520 km/s. (a) Calculate the wavelength of the incident photon. nm (b) Calculate the angle through which the electron scatters. °
In a Compton scattering experiment, an x-ray photon scatters through an angle of 19.0° from a...
In a Compton scattering experiment, an x-ray photon scatters through an angle of 19.0° from a free electron that is initially at rest. The electron recoils with a speed of 1,240 km/s. (a) Calculate the wavelength of the incident photon. nm (b) Calculate the angle through which the electron scatters. °
In a Compton scattering experiment, an incident photon of energy 295.00 kev scatters off a loosely...
In a Compton scattering experiment, an incident photon of energy 295.00 kev scatters off a loosely bound electron resulting in the scattered photon to have an energy of 159.00 kev. a. Determine the scattering angle for the scattered photon, relative to the original direction of travel, and b. Determine the energy of the scattered electron. c. If the photon is back scattered (θ = 180°), determine the momentum of the scattered electron, in units of (kg m/s).
What is compton scattering and why is it important? How can compton scattering be applied to...
What is compton scattering and why is it important? How can compton scattering be applied to an innovation in the future?
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT