The work function for gold is 5.10 eV. (a) Convert the value of the work function from electron volts to joules. 8.16E-19 J (b) Find the cutoff frequency for gold. 1.23E15 ✓ Hz (c) What maximum wavelength of light incident on gold releases photoelectrons from the gold's surface? X Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. nm (d) If light of energy 8.72 eV is incident on gold, what is the maximum kinetic energy of the ejected photoelectrons? Give the answer in electron volts. x Your response differs from the correct answer by more than 10%. Double check your calculations. eV (e) For photons of energy 8.72 eV, what stopping potential would be required to arrest the current of photoelectrons?

The work function for gold is 5.10 eV. (a) Convert the value of the work function from electron volts to joules. 8.16E-19 J (b) Find the cutoff frequency for gold. 1.23E15 ✓ Hz (c) What maximum wavelength of light incident on gold releases photoelectrons from the gold's surface? X Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. nm (d) If light of energy 8.72 eV is incident on gold, what is the maximum kinetic energy of the ejected photoelectrons? Give the answer in electron volts. x Your response differs from the correct answer by more than 10%. Double check your calculations. eV (e) For photons of energy 8.72 eV, what stopping potential would be required to arrest the current of photoelectrons?

University Physics Volume 3

17th Edition

ISBN:9781938168185

Author:William Moebs, Jeff Sanny

Publisher:William Moebs, Jeff Sanny

Chapter6: Photons And Matter Waves

Section: Chapter Questions

Problem 137AP: A laser with a power output of 2.00 mW at a 400-nm wavelength is used to project a beam of light...

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Concept explainers

Atomic Spectra

According to the Bohr model of an atom, the electron in an atom moves around a nucleus in fixed orbits with specific energies known as energy levels. The orbital energies are quantized. The electrons remain in these energy levels until they emit or absorb a photon of a particular wavelength, the quantum of energy. If the electron emits a photon, it then falls back to a lower energy level, and if it absorbs a photon, the electron rises to higher energy levels. The photons released or absorbed in these transitions of an electron are studied and analyzed on a screen as atomic spectra.

Ruby Lasers

Lasers are devices that emit light using atoms or molecules at a certain wavelength and amplify the light to produce a narrow beam of radiation. It works as per the principle of electromagnetic radiation. Their source of emission contains the same frequency and same phase. It was invented in the year 1960 by the great noble scientist, Theodore Maiman.

Balmer Series

The spectrum of frequency observed when electromagnetic radiation is emitted from an atom when it goes from higher energy state to lower state, is known as emission spectrum. This transition occurs when an excited electron moves from higher to lower state. It has many possible electron transitions and each transition has a specific energy difference.

Emission Spectrum

Every state of matter tries to be at minimum potential energy or it can be said that the atoms of element/ substance arrange themselves such that overall energy is minimum.

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need help on c,d,e

The work function for gold is 5.10 eV.
(a) Convert the value of the work function from electron volts to joules.
J
8.16E-19
(b) Find the cutoff frequency for gold.
1.23E15
Hz
(c) What maximum wavelength of light incident on gold releases photoelectrons from the gold's surface?
X
Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. nm
(d) If light of energy 8.72 eV is incident on gold, what is the maximum kinetic energy of the ejected photoelectrons? Give the answer in electron volts.
X
Your response differs from the correct answer by more than 10%. Double check your calculations. eV
(e) For photons of energy 8.72 eV, what stopping potential would be required to arrest the current of photoelectrons?
Your response differs from the correct answer by more than 10%. Double check your calculations. V

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