What is the binding energy of a substance where the longest wavelength that can eject electrons...

The maximum wavelength for which an electromagnetic wave can eject electrons from a platinum surface is...

The maximum wavelength for which an electromagnetic wave can eject electrons from a platinum surface is 196 nm. When radiation with a wavelength of 141 nm shines on the surface, what is the maximum speed of the ejected electrons? Please include a diagram if you can!

The minimum frequency of light needed to eject electrons from a metal is called the threshold...

The minimum frequency of light needed to eject electrons from a metal is called the threshold frequency, ν0. Find the minimum energy needed to eject electrons from a metal with a threshold frequency of 3.35 × 1014 s–1. With what maximum kinetic energy will electrons be ejected when this metal is exposed to light with a wavelength of λ = 265 nm?

The minimum frequency of light needed to eject electrons from a metal is called the threshold...

The minimum frequency of light needed to eject electrons from a metal is called the threshold frequency, ν0. Find the minimum energy needed to eject electrons from a metal with a threshold frequency of 2.05 × 1014 s–1. With what maximum kinetic energy will electrons be ejected when this metal is exposed to light with a wavelength of λ = 265 nm?

Find the longest wavelength of light that can eject an electron from gold. The work function...

Find the longest wavelength of light that can eject an electron from gold. The work function of gold is 5.1 eV (1eV= 1.6x10^-19 joules).

A) Light of frequency 9.13 x 10^14 s-1 shines on the surface of a certain metal,...

A) Light of frequency 9.13 x 10^14 s-1 shines on the surface of a certain metal, Metal X. if the ejected electrons have a velocity of 6.13x10^5 m/s, what is the work function (binding energy) of Metal X? B) What is the longest wavelength of light (in nm) that can be used to eject electrons from the surface of Metal X? C) A different metal, Metal Y, has smaller binding energy. If the same frequency of light from Part A...

A. What is the energy in 10-3 eV of a photon that has a momentum of...

A. What is the energy in 10-3 eV of a photon that has a momentum of 6.13×10−29 kg ⋅ m/s ? B. What is the energy in 10-9 eV of a photon in a radio wave from an AM station that has a 1,506 kHz broadcast frequency? C. Calculate the frequency in 1020 Hz of a 0.571 MeV γ-ray photon. D. A certain molecule oscillates with a frequency of 1.73×1013 Hz. What is the approximate value of n for a...

light of 380 nm wavelength is directed at a metal electrode. to determine the energy of...

light of 380 nm wavelength is directed at a metal electrode. to determine the energy of electrons ejected, an opposing electrostatic potential difference is established between it and another electrode, the current of photoelectrons from one to the other is stopped completely when the potential difference is 1.1 V a) determine the work function of the metal b) determine the max wavelength light that can eject electron from this metal.

The maximum wavelength that an electromagnetic wave can have and still eject electrons from a metal...

The maximum wavelength that an electromagnetic wave can have and still eject electrons from a metal surface is 519 nm. What is the work function W0 of this metal? Express your answer in electron volts.

Electrons are ejected from sodium metal by any light that has a wavelength shorter than 544...

Electrons are ejected from sodium metal by any light that has a wavelength shorter than 544 nm. What is the kinetic energy of an electron (in J) that is ejected from sodium by light with a wavelength of 385 nm?

If photons with a wavelength of 23.7 nm hits a metal surface with a binding energy...

If photons with a wavelength of 23.7 nm hits a metal surface with a binding energy of 496 kJ/mol, what would be the MOST LIKELY speed of the ejected electrons? Does anyone know how to go about solving this? I'm kind of not sure how to even start.