1.In the Compton effect, an X-ray photon of wavelength 0.23 nm is incident on a stationary electron. Upon collision with the electron, the scattered X-ray photon continues to travel in the same direction as the incident photon. 1.What is the wavelength λ' of the scattered photon?
λ' =
2.A particle (m = 3.7 × 10-28 kg) starting from rest, experiences an acceleration of 2.4 × 107 m/s2 for 5.0 s. What is its de Broglie wavelength λ at the end of this period?
λ =
3.An AM radio station broadcasts an electromagnetic wave with a frequency of 801 kHz, whereas an FM station broadcasts an electromagnetic wave with a frequency of 97.9 MHz. How many AM photons are needed to have a total energy equal to that of one FM photon?
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1.In the Compton effect, an X-ray photon of wavelength 0.23 nm is incident on a stationary...
An AM radio station broadcasts an electromagnetic wave with a frequency of 554 kHz, whereas an FM station broadcasts an electromagnetic wave with a frequency of 96.4 MHz. How many AM photons are needed to have a total energy equal to that of one FM photon?
An X-ray photon of wavelength 0.5 nm collides with a stationary free electron and scattered at 180° angle. If the Compton wavelength has the value rc=2.4x10-'nm, then: (a) find the wavelength and the Compton Shift of the scattered photon, (6 marks) (b) find the energy of the incident and scattered photon (in joule). (4 marks)
Problem 2 Compton Effect a) In a Compton scattering experiment the wavelength of the incident x-rays is 7.078 10-2 [nm] while the wavelength of the outgoing x-ray is 7.314 10-2 [nm]. At what angle was the scattered radiation measured? b) In a Compton scattering experiment a detector is set at an angle of 57°. What must the frequency of the incoming x-rays be in order to produce a final x-ray with a frequency 1% less than the initial frequency? Problem...
IV. (12pts) X-ray photons of wavelength 0.120 nm are incident on a target and the Compton-scattered photons are observed at 180.0°. (a) What is the wavelength of the scattered photons? (b) What is the momentum of the incident photons? Of the scattered photons? (c) What is the kinetic energy of the scattered electrons?
X-ray photons of wavelength 0.0268 nm are incident on a target and the Compton-scattered photons are observed at 65.0° above the photons' incident line of travel. [Use relativistic units for this problem!] (a) What is the wavelength of the scattered photons? 2.82E-110 (b) What is the momentum of the incident photons? 2.47E-231 What is the momentum of the scattered photons? 2.34E-231 (c) What is the kinetic energy of the scattered electrons? 3.6789E-1 (d) What is the momentum (magnitude and angle)...
In a Compton scattering experiment, the incident X-rays have a wavelength of 0.2686 nm, and the scattered X-rays have a wavelength of 0.2705 nm. Through what angle in the drawing are the X-rays scattered? E, Photon scattering from stationary electron
1. A local FM radio station broadcasts at a frequency of 93.4 MHz. Calculate the wavelength at which it is broadcasting. Wavelength = meter (1 MHz = 106 s -1) 2. A local AM radio station broadcasts at a frequency of 623 kHz. Calculate the wavelength at which it is broadcasting. Wavelength = m (1 kHz = 10 3 sec -1) 6.1
An X-ray photon of unknown wavelength is scattered from a free electron at rest and the scattered X-ray is observed at 24.2 degrees to the incident X-ray. What is the Compton shift(in pm)?
In the Compton effect an X-ray photon scatters from a free electron. In such an experiment, an X-ray photon of wavelength 0.141 nm scatters at an angle of 135® from the incident direction. what is the momentum of the incident photon? Give your answer to at least three significant figures. Your answer must be accurate to 1%, 4.699340x104 kg m/s Previous Tries no.isisseaneenoonties Your receipt no. is 155-2231 What is the energy of the incident photon? Give your answer to...
You are listening to 790 AM radio. This station is broadcasting at a frequency of 790 kHz. You switch to 98.3 FM, which broadcasts at 98.3 MHz. A) Give the frequency of each station in Hz. B) Which station broadcasts at the longer wavelength? And which broadcasts photons of the highest energy?