5) What is the wavelength of light an electron that has an energy of 10,000 eV....
Problem 5. a. What is the energy in joules and electron volts of a photon of 520-nm green light? b. What is the maximum kinetic energy of electrons ejected from calcium by 520-nm green light, given that the binding energy (or work function) of electrons for calcium metal is 2.71 eV?
Problem 5. a. What is the energy in joules and electron volts of a photon of 520-nm green light? b. What is the maximum kinetic energy of electrons ejected from calcium by 520-nm green light, given that the binding energy (or work function) of electrons for calcium metal is 2.71 eV?
Electrons in an electron microscope have a kinetic energy of 6.01 105 eV. (a) Find the de Broglie wavelength of the electrons. (b) Find the ratio of this wavelength to the wavelength of light at the middle of the visible spectrum (550 nm). (c) How many times greater magnification is theoretically possible with this microscope than with a light microscope?
Problem 5. a. What is the energy in joules and electron volts of a photon of 520-nm green light? b. What is the maximum kinetic energy of electrons ejected from calcium by 520-nm green light, given that the binding energy (or work function) of electrons for calcium metal is 2.71 eV? (Note: this question has already been answered by another tutor, but the way they solved the problem was counted wrong by my instructor)
The photoelectric work function energy for gold metal is 4.82 eV (per electron). What wavelength of radiation must be directed at the surface of gold metal in order to eject electrons electrons having a maximum kinetic energy of 3.20×10 –20 Joules/electron. [Note: The electron volt (eV) is a common energy unit for work function energies. 1 eV = 1.602×10 –19 Joules.] -20 The photoelectric work function energy for gold metal is 4.82 eV (per electron). What wavelength of radiation must...
A) Light with a wavelength of 395 nm illuminates a metal cathode. The maximum kinetic energy of the emitted electrons is 0.61 eV. What is the longest wavelength of light that will cause electrons to be emitted from this cathode? B) What is the kinetic energy, in eV, of an electron with a de Broglie wavelength of 2.1 nm?
The photoelectric work function energy for manganese metal is 3.76 eV (per electron). What wavelength of radiation must be directed at the surface of manganese metal in order to eject electrons electrons having a maximum kinetic energy of 2.00×10 –19 Joules/electron. [Note: The electron volt (eV) is a common energy unit for work function energies. 1 eV = 1.602×10 –19 Joules.] Wavelength (λ) = Answer nm
Sodium metal has a work function of 2.28 eV. (a) At what wavelength of incident light will electrons be ejected from the material? (b) If light of wavelength 450 nm is incident on the sodium, determine the maximum kinetic energy of the ejected electrons 13.4
(a) An electron has a kinetic energy of 6.16 eV. Find its wavelength. nm (b) A photon has energy 6.16 eV. Find its wavelength. nm
5. Find the kinetic energy of an electron whose de Broglie wavelength is 34.0 nm. 6. Light with a frequency of 1.85 x 1015 Hz ejects electrons from the surface of zinc, which has a work function of 4.33 eV. What is the minimum de Broglie wavelength of the ejected electrons? nm