An investigator is measuring the current in a photoelectric effect experiment. The cathode is illuminated by...

A current is detected in a photoelectric-effect experiment when the cathode is illuminated with green light....

A current is detected in a photoelectric-effect experiment when the cathode is illuminated with green light. Part A Will a current necessarily be detected if the cathode is illuminated with blue light? Select the correct answer and explanation. (1)Photons of blue light have less energy than photons of green light. Therefore, if there is a current in a photoelectric-effect apparatus with green light, then there could be no current with blue light. (2)Photons of blue light have less energy than...

In the Hallwachs and Lenard experiment on the photoelectric effect, a beam of monochromatic light was...

In the Hallwachs and Lenard experiment on the photoelectric effect, a beam of monochromatic light was shined on a cathode. Which factor has the least effect on whether the cathode releases electrons? the intensity of the monochromatic light the electric potential between the cathode and anode the material on the surface of the cathode the frequency of the monochromatic light

Potassium and gold cathodes are used in a photoelectric-effect experiment. For each cathode, find: 1. The...

Potassium and gold cathodes are used in a photoelectric-effect experiment. For each cathode, find: 1. The threshold frequency 2. The threshold wavelength 3. The maximum electron ejection speed if the light has a wavelength of 210 nm 4. The stopping potential if the wavelength is 210 nm. Throughout this problem, be sure to use 6.63 x 10^-34 J•s for Planck's constant.

A) Within a photoelectric effect experiment, light shines on the surface of a metal plate and...

A) Within a photoelectric effect experiment, light shines on the surface of a metal plate and the stopping voltage is measured. a) If the light intensity is decreased, what happens to the stopping voltage? decreases increases     stays the same not enough information b) If the light intensity is decreased, what happens to the number of electrons emitted? decreases increases     stays the same not enough information c) If the light wavelength is decreased, what happens to the KE of the emitted...

In a photoelectric-effect experiment it is observed that no current flows unless the wavelength is less...

In a photoelectric-effect experiment it is observed that no current flows unless the wavelength is less than 570 nm . What is the stopping voltage required if light of wavelength 450 nm is used? Express your answer using two significant figures. stopping voltage = ? v

In a photoelectric-effect experiment it is observed that no current flows unless the wavelength is less...

In a photoelectric-effect experiment it is observed that no current flows unless the wavelength is less than 490 nm . What is the work function of this material? Express your answer using two significant figures. W0 =    eV What is the stopping voltage required if light of wavelength 420 nm is used? Express your answer using two significant figures. V0 =    V

In a photoelectric-effect experiment it is observed that no current flows unless the wavelength is less...

In a photoelectric-effect experiment it is observed that no current flows unless the wavelength is less than 430 nm . Part A What is the work function of this material? Express your answer using two significant figures. W0 =    eV Part B What is the stopping voltage required if light of wavelength 380 nm is used? Express your answer using two significant figures. V?0 =    V

In a photoelectric-effect experiment, the stopping potentials was measured as 1.0 V for light of wavelength...

In a photoelectric-effect experiment, the stopping potentials was measured as 1.0 V for light of wavelength 600 nm, 2.0 V for 400 nm, and 3.0 V for 300 nm. Determine the work function for this material and the implied value of Planck’s constant h (graphically)

In a photoelectric e↵ect experiment, the maximum kinetic energy of electrons ejected from a cesium metal...

In a photoelectric e↵ect experiment, the maximum kinetic energy of electrons ejected from a cesium metal plate is found to be 0.57eV when the plate is illuminated with 500 nm light. (a) Given what we know about the relation of wavelength and energy, how much energy does a single photon of 500 nm light have? (b) Given the results of this experiment, how much energy must the electron have used to break free of the atom? (c) When the same...

2) You’re a physics professor preparing a photoelectric effect lab for your class. When testing the...

2) You’re a physics professor preparing a photoelectric effect lab for your class. When testing the apparatus to be used, you measure a stopping potential of 0.50 V for a wavelength of 485 nm, and a stopping potential of 1.48 V for a wavelength of 350 nm. a) Is this a lab you can safely give to your class? (That is, does the value of Planck’s constant obtained from these data agree with the accepted value?) b) What is the...