What is the maximum kinetic energy of electrons knocked out of a thin copper foil by...

X rays of wavelength 0.0144 nm are directed in the positive direction of an x axis...

X rays of wavelength 0.0144 nm are directed in the positive direction of an x axis onto a target containing loosely bound electrons. For Compton scattering from one of those electrons, at an angle of 167°, what are (a) the Compton shift (in pm), (b) the corresponding change in photon energy (in keV), (c) the kinetic energy (in keV) of the recoiling electron, and (d) the angle between the positive direction of the x axis and the electron's direction of...

X rays of wavelength 0.0148 nm are directed in the positive direction of an x axis...

X rays of wavelength 0.0148 nm are directed in the positive direction of an x axis onto a target containing loosely bound electrons. For Compton scattering from one of those electrons, at an angle of 159°, what are (a) the Compton shift (in pm), (b) the corresponding change in photon energy (in keV), (c) the kinetic energy (in keV) of the recoiling electron, and (d) the angle between the positive direction of the x axis and the electron's direction of...

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.

Gamma rays of photon energy 0.406 MeV are directed onto an aluminum target and are scattered...

Gamma rays of photon energy 0.406 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 124° 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

If the maximum energy imparted to an electron in Compton scattering is 45 keV, what is...

If the maximum energy imparted to an electron in Compton scattering is 45 keV, what is the wavelength (Angstrom) of the incident photon. Assume relativistic case.

An X-Ray photon with an energy of E = 128 keV undergoes Compton Scattering at an...

An X-Ray photon with an energy of E = 128 keV undergoes Compton Scattering at an angle of θ = 33°. What is the wavelength (λ0) of the incident photon (in nm)? Use h = 4.136 x 10-15 eVs and c = 3 x 108 m/s. What is the wavelength (λ') of the scattered photon (in nm)? What is the energy (E’) if the scattered photon (in keV)? Use h = 4.136 x 10-15 eVs and c = 3 x...

The work function for copper is 4.5 eV. (a) Find the threshold frequency and wavelength for...

The work function for copper is 4.5 eV. (a) Find the threshold frequency and wavelength for the photoelectric effect to occur when monochromatic electromagnetic radiation is incident on the surface of a sample of copper. Hz nm (b) Find the maximum kinetic energy of the electrons if the wavelength of the incident light is 190 nm. eV (c) Find the maximum kinetic energy of the electrons if the wavelength of the incident light is 240 nm. eV

When light of wavelength 300.0 nm is incident on potassium, the emitted electrons have maximum kinetic...

When light of wavelength 300.0 nm is incident on potassium, the emitted electrons have maximum kinetic energy of 2.03 eV. A) Calculate the work function for potassium. B) Calculate the stopping potential if the incident light, instead, has a wavelength of 400.0 nm. C) Now, assume that the incident light has an intensity of 0.01 W/m^2, and that the potassium atom has an area of 0.01 nm^2. Using classical physics, estimate the time required for an energy equal to the...

A beam of monochromatic (same-energy) electrons of wavelength λ = 10-12[m] encounters slits of width d...

A beam of monochromatic (same-energy) electrons of wavelength λ = 10-12[m] encounters slits of width d = 1.9×10-10[m]. This corresponds to the scattering we get in an electron microscope when the electrons pass between rows of atoms. A. Find the scattering angle θ at which the first order diffraction maximum is created, e.g. by assuming for most small-angle diffraction processes that θ ≅ λ/d ≅ g/L. ​​​​​​​B. Find the separation g between the unscattered beam and this first order maximum,...

The work function for tungsten is 4.58eV. What is the kinetic energy of electrons emitted when...

The work function for tungsten is 4.58eV. What is the kinetic energy of electrons emitted when light of wavelength 400nm is incident on the tungsten surface? (Planck constant= 6.626 x10^-34 J s= 4.136 x10^-15 eVs) A. 0.74eV B.1.5eV C. 7.7eV D. 2.9eV E. No electrons are emitted