A photon of wavelength 5.58 pm scatters at an angle of 122° from
an initially stationary,...
A photon of wavelength 5.58 pm scatters at an angle of 122° 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 1.73 pm scatters at an angle of 122∘ 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 6.63 pm scatters at an angle of 167 ∘
from an initially stationary, unbound electron. What is the de
Broglie wavelength of the electron after the photon has been
scattered?
A photon moving in the +x-direction, scatters off a
free stationary electron. The wavelength of the incident photon is
0.0230 nm. After the collision, the electron moves at an angle
α below the +x-axis, while the photon moves at an
angle θ = 78.3° 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)?...
A photon moving in the +x-direction, scatters off a
free stationary electron. The wavelength of the incident photon is
0.0330 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)?...
An X-ray photon with a wavelength of 0.120 nm scatters from a
free electron at rest. The scattered photon moves at an angle of
105° relative to its incident direction. (a) Find the initial
momentum of the photon. kg·m/s (b) Find the final momentum of the
photon. kg·m/s
An X-ray photon scatters from a free electron at rest at an
angle of 110° relative to the incident direction.
(a) If the scattered photon has a wavelength of 0.270 nm, what is
the wavelength of the incident photon?
(b) Determine the energy of the incident and scattered
photons.
c) Find the kinetic energy of the recoil electron.
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 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.
°
Item 3.8
An X-ray photon scatters from a free electron at rest at an
angle of 125 ∘ relative to the incident direction.
Part A
If the scattered photon has a wavelength of 0.310 nm, what is
the wavelength of the incident photon? Express your answer using
three significant figures.
Part B
Determine the energy of the incident photon.Express your answer
using three significant figures.(end unit is keV)
Part C
Determine the energy of the scattered photon. Express your
answer...
A proton with initial wavelength the same as compton wavelength
scatters off an electron( initially at rest) and bounces back. find
the final energy, kinetic energy, and recoil speed.