When 289-nm photons are incident on the surface of a metal, electrons are ejected from it...
Electromagnetic radiation is incident on a metallic surface. Electrons are emitted from the surface when the wavelength is 450 nm or less. a) What is the work function of the metal? b) What is the maximum kinetic energy of photo-electrons if the incident light has a wavelength of 400 nm? c) What is the stopping voltage required to stop photo-electrons ejected by the plate when the incident light has a wavelength of 300 nm? d)If the stopping voltage is 5...
When light with a wavelength of 216 nm is incident on a certain metal surface, electrons are ejected with a maximum kinetic energy of 3.35 × 10-19 J. Determine the wavelength of light that should be used to double the maximum kinetic energy of the electrons ejected from this surface. in m/s with 3 sig figs please
Light of wavelength 400 nm is incident on a metal surface. The stopping potential for the resulting electrons is 0.91 V. a) What is the work function of the metal? b) Identify the metal. (Use the Table) c) What is the cut-off frequency for this target? 76 Chapter 3 Waves and Particles 1: Electromagnetic Radia TABLE 3.1 Metal Work Function in eV) Cesium Potassium Sodium Magnesium 19 2.2 2.3 3.7 are ejected if the intensi surable time might be ne...
14) Photons of energy 6.0 J are incident on a metal. It is found that current flows until a stopping potential of 3.8 V is applied. A) Find the work function. (5 points) B) If the wavelength of incident photons is tripled, what is the maximum kinetic energy of ejected electrons? (5 points)
2. (3 points) When light with wavelength of 221 nm is incident on a certain metal surface, electrons are ejected with maximum kinetic energy of 3.28 x 1019). a) What is the binding energy (the work function)? Express your answer in ev. b) Find the wavelength of light necessary to double the maximum kinetic energy of the electrons ejected from the metal.
2. When light with a wavelength of 223 nm is incident on a certain metal surface, electrons are ejected with a maximum kinetic energy of 3.30 × 10 − 19 J. Determine the wavelength of light that should be used to double the maximum kinetic energy of the electrons ejected from this surface.
Which of the following statements is correct for photoelectric effect? (A) In order to eject electrons from a metal surface, the wavelength of photon must be shorter than the threshold wavelength. (B) In order to eject electrons from a metal surface, the frequency of photon must be lower than the cut-off frequency. (C) The work function increases with increasing the frequency of photons. (D) The work function increases with increasing the wavelength of photons. (E) The kinetic energy of ejected...
When ultraviolet light with a wavelength of 280 nm is incident on a particular metal surface, electrons are emitted via the photoelectric effect. The maximum kinetic energy of these electrons is 1.44 eV. (a) What is the work function of the metal? eV (b) What is the threshold frequency for this particular metal? Hz
!) Light with a wavelength of (465 + A) nm is incident on a metal surface with a work function of (1.25 + (0.1)(B)) eV. Find the maximum kinetic energy of the emitted photoelectrons. Give your answer in eV and with 3 significant figures. 2) Consider electrons accelerated using a potential difference of (12.5 + A + B) kV before hitting a metal surface. Calculate the minimum wavelength of the emitted x-rays. Give your answer in pm and with 3...
1. Electrons are ejected from a metal surface with energies ranging up to 0.5 eV when light with a wavelength of 538 nm is used. What is the work function of the metal in units of eV? 2. What is the deBroglie wavelength (in nm) of a neutron (m = 1.67*10-27 kg) moving with a speed of 68 m/s? Enter a number with 2 decimal places. 3. A gamma ray photon has an energy of 0.84 GeV. (1 GeV =...