1) If initially a photon has a wavelength of λ = 1 nm, and assuming that...

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. 5)Next assume the photon deflects off at a larger angle of 106. What is the wavelength of the outgoing photon after the collision in this situation? λ' = 6)What the energy of the outgoing photon? Eγ = 7)Finally, lets say the photon hits the electron straight on so that it deflects straight back. What is the wavelength of the...

Consider the process of Compton scattering. A photon of wavelength λ is scattered off a free...

Consider the process of Compton scattering. A photon of wavelength λ is scattered off a free electron initially at rest. Let λ’ be the wavelength of the photon scattered in a direction θ relative to the photon incident direction. (a) Find λ’ in terms of λ and θ and universal constants. (b) Find the kinetic energy of the recoiled electron.

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(in pm) of the electron after the photon has been scattered?? Notice: Answer is not (9.29, 2.12, 2.06, nor 4.11)pm Explanation: The de Broglie wavelength of a massive particle is related to its momentum in the same way that a photon's momentum is related to its wavelength. The well-known Compton scattering relationship gives the final wavelength of...

In a Compton scattering experiment, an x-ray photon scatters through an angle of 19.8° from a...

In a Compton scattering experiment, an x-ray photon scatters through an angle of 19.8° from a free electron that is initially at rest. The electron recoils with a speed of 2,600 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 13.4° from a...

In a Compton scattering experiment, an x-ray photon scatters through an angle of 13.4° from a free electron that is initially at rest. The electron recoils with a speed of 1,560 km/s. (a) Calculate the wavelength of the incident photon. In nm (b) Calculate the angle through which the electron scatters.

In a Compton scattering experiment, an x-ray photon scatters through an angle of 18.2° from a...

In a Compton scattering experiment, an x-ray photon scatters through an angle of 18.2° from a free electron that is initially at rest. The electron recoils with a speed of 1,800 km/s. (a) Calculate the wavelength of the incident photon. (nm) (b) Calculate the angle through which the electron scatters. (degrees)

1. A hydrogen atom, initially in the first excited state (initial ni = 2), absorbs a...

1. A hydrogen atom, initially in the first excited state (initial ni = 2), absorbs a photon of wavelength 656.30 nm. (a) (5) What is the final state ? In other words, solve for the FINAL nf . Show all work. (b) (5) What would be the wavelength of a photon, which , when absorbed by the atom, ionizes an electron from the first excited level ? 2. X-rays with initial wavelength λ = 0.0665 nm undergo Compton scattering. (a)...

A photon scatters off a free electron. The wavelength of the incident photon is 27.6 ✕...

A photon scatters off a free electron. The wavelength of the incident photon is 27.6 ✕ 10−4 nm. The electron recoils with a kinetic energy that is 0.87 times the energy of the scattered photon. Determine the scattering angle.

Compton Scattering.A photon of wavelength λcollides elastically with a free electron (initially at rest) of mass...

Compton Scattering.A photon of wavelength λcollides elastically with a free electron (initially at rest) of mass m. If the photon scatters at an angle φfrom its original direction of travel, use conservation of relativistic linear momentum and conservation of relativistic energy to derive a mathematical expression for the scattered photon’s wavelength λ’.

Find the wavelength (in nm) of a photon whose energy is 6.70 × 10-19 J. The...

Find the wavelength (in nm) of a photon whose energy is 6.70 × 10-19 J. The maximum wavelength that an electromagnetic wave can have and still eject electrons from a metal surface is 507 nm. What is the work function W0 of this metal? Express your answer in electron volts. In the Compton effect, an X-ray photon of wavelength 0.16 nm is incident on a stationary electron. Upon collision with the electron, the scattered X-ray photon continues to travel in...