Use Einstein's photon idea to explain why the stopping potential is independent of light intensity

1. A photon detector on the screen uses a caesium plate, which has a known stopping...

1. A photon detector on the screen uses a caesium plate, which has a known stopping potential of 0.95 V for photons of wavelength 435.8 nm. If the photon wavelength is then set to 546.1 nm, the stopping potential is measured to be 0.38 V. Using this data, determine the value of hc, which is Planck’s constant multiplied by the speed of light, to three significant figures in units eV nm.

In a particular photoelectric experiment, a stopping potential of 2.1V is measured with UV light λ...

In a particular photoelectric experiment, a stopping potential of 2.1V is measured with UV light λ =290nm incident on the unknown metal. A) using the same metal, what is the expected stopping potential expected when using 440nm light? B) what is the longest wavelength light that could possibly eject an electron from this metal?

The stopping potential for photoelectrons emitted from a surface illuminated by light of wavelength 490nm is...

The stopping potential for photoelectrons emitted from a surface illuminated by light of wavelength 490nm is 0.70V. When the incident wavelength is changed to a new value, the stopping potential is found to be 1.40V. What is the work function for the surface? What is this new wavelength?

The stopping potential for electrons emitted from a surface illuminated by light of wavelength 567 nm...

The stopping potential for electrons emitted from a surface illuminated by light of wavelength 567 nm is 0.932 V. When the incident wavelength is changed to a new value, the stopping potential is 2.00 V. (a) What is this new wavelength? (b) What is the work function for the surface

The stopping potential for electrons emitted from a surface illuminated by light of wavelength 500 nm...

The stopping potential for electrons emitted from a surface illuminated by light of wavelength 500 nm is 0.770 V. When the incident wavelength is changed to a new value, the stopping potential is 1.40 V. (a) What is this new wavelength? (b) What is the work function for the surface?

Problem: Light strikes a sodium surface, causing photoelectric emission. The stopping potential for the ejected electrons...

Problem: Light strikes a sodium surface, causing photoelectric emission. The stopping potential for the ejected electrons is 5.0V, and the work function of sodium is 2.2eV. What is the wavelength of the incident light? Give your answer in nanometers.​

Light of wavelength 342 nm shines on a metal surface and the stopping potential V0 in...

Light of wavelength 342 nm shines on a metal surface and the stopping potential V0 in a photoelectric experiment is observed to be 0.850 V. a) What is the work function φ of the metal? (eV) b) What is the maximum kinetic energy of the ejected electrons (in Joules)? c) What is the longest wavelength light that will still allow electrons to escape the metal?(nm)

why is it less dangerous to be exposed to high-intensity red light than low-intensity gamma rays?

why is it less dangerous to be exposed to high-intensity red light than low-intensity gamma rays?

Why is the intensity of unpolarized light halved when it passes through a polarizer?

Why is the intensity of unpolarized light halved when it passes through a polarizer?

Explain what a photon is and what property of photons relates to different colors of light.

Explain what a photon is and what property of photons relates to different colors of light.