(b) (12 pts) We conduct a photoelectric effect experiment where the electrons are ejected from a...
In the photoelectric effect, the maximum wavelength for electrons to be emitted from a surface is 586 nm. Now light with frequency 7.28 x 1014 Hz is directed on the metal. What is the speed of the emitted electrons?
Light striking a metal surface causes electrons to be emitted from the metal via the photoelectric effect.In a particular experiment to study the photoelectric effect, the frequency of the incident light and the temperature of the metal are held constant. Assuming that the light incident on the metal surface causes electrons to be ejected from the metal, what happens if the intensity of the incident light is increased?Check all that apply.The work function of the metal decreases.The number of electrons...
ANSWER 5A, B, AND 6! 5. a) Why do we care about the photoelectric effect? Wait...maybe you don't! Let's try this instead.... The photoelectric effect experiment provides evidence in support of what important physical concept? b) Describe, in your own words, how Einstein's explanation of the photoelectric effect provides evidence in support of this concept. 6. In a photoelectric effect experiment using copper, the maximum kinetic energy of the ejected electrons was measured to be 4.3 ev. What wavelength of...
Electrons are ejected from a metallic surface with speeds ranging up to 4.4 105 m/s when light with a wavelength of λ = 630 nm is used. (a) What is the work function of the surface? ______eV (b) What is the cutoff frequency for this surface? _________Hz
in a photoelectric-effect experiment, it is found out that no current flows unless the wavelength is less than 445nm.(a) what is the work function of this material?(b) find the maximum speed of the ejected electrons if the wavelength is changed to (i) 456nm (ii) 342nm
Please show steps and show equations used 5. The cut-off (threshold) wavelength for the photoelectric effect for silver is 325 nm. (a) (4 pts) Find the maximum speed of electrons ejected from a silver surface by ultraviolet light of wavelength 250 nm. (b) (2 pts) What would happen if the intensity of light at wavelength 250 nm were increased? (o) 2 pts) If the silver surface were illuminated by a light of wavelength 500 nm, what would happen? Explain (d)...
In a photoelectric effect experiment at a frequency above cut off, the number of electrons ejected is proportional to: A) their kinetic energy B) their potential energy C) the work function D) the frequency of the incident light E) the number of photons that hit the sample Which of the followings can increase the kinetic energy of each emitted electrons? I. Increase the light frequency but keep the intensity fixed ll. Increase the light intensity but keep frequency fixed Ill....
In a photoelectric-effect experiment, the maximum kinetic energy of electrons is 3.0 eV . When the wavelength of the light is increased by 50%, the maximum energy decreases to 1.1 eV . What is the work function of the cathode? What is the initial wavelength?
The photoelectric work function for barium metal is 239 kilojoules per mole of electrons ejected from the surface. Calculate the maximum wavelength of electromagnetic radiation capable of removing an electron from the surface of barium metal. Amax = nm (Answer in nanometers) Check
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...