What would be the maximum speed of the electrons ejected from a metal plate whose extraction...

What would be the maximum speed of the electrons ejected from a metal plate whose extraction work is 9 eV if it were lit by a light having a wavelength of 100 nm?

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...

Question 1: Photoelectric effect. An aluminum plate is lit by 30 watt blue light ( =...

Question 1: Photoelectric effect. An aluminum plate is lit by 30 watt blue light ( = 340nm). The aluminum extraction work is 2 eV. a. What will be the maximum speed of the ejected electrons? b. If only 1% of the ejected electrons go to the detector, how much will it detect per second? c. What is the stopping potential? d. What maximum wavelength can the photoelectric effect produce on aluminum?

What is the maximum kinetic energy in eV of electrons ejected from sodium metal by 2.3...

What is the maximum kinetic energy in eV of electrons ejected from sodium metal by 2.3 x 102-nm EM radiation, given that the binding energy is 2.28 eV? Your answer should be a number with two decimal places, do not include unit.

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?

When light of frequency f is shined on a given metal, electrons of maximum kinetic energy...

When light of frequency f is shined on a given metal, electrons of maximum kinetic energy of 3.25 eV are ejected from the metal. When light of frequency 4f is shined on the same metal, electrons of maximum energy 15.65 eV are ejected from the metal. Question: What is the work function of the metal?

Consider electrons at the surface of a metal whose work function is 2.4 eV. Laser light...

Consider electrons at the surface of a metal whose work function is 2.4 eV. Laser light of wavelength 350 nm and power output of 100 mW is shone on this metal, and all the energy of each photon is absorbed by the electrons at the surface. If we model the de Broglie wave function of the electrons as plane waves, how many electrons per second do we expect to see ejected from the metal’s surface? (5) Hint: treat the work...

The maximum speed of photoelectrons ejected from the surface of copper is 4.07E5 m/s when light...

The maximum speed of photoelectrons ejected from the surface of copper is 4.07E5 m/s when light with a wavelength of 240 nm is shined on the surface. What is the work function of copper metal?

In a photoelectric experiment, the work function of the material from which electrons are ejected equals...

In a photoelectric experiment, the work function of the material from which electrons are ejected equals 2.5eV. What is the maximum wavelength of light for which electrons are ejected from this material and what stopping voltage is required when light, having a wave lengthof 3.5x 10-7m, is used with this material(if one may take for Planck’s constant, h = 6.63 x 10−34Js, for the speed of light, c = 3.0 x 108m/s, and noting that:1 eV = 1.6 x 10−19J)?

Photons with a wavelength of 440 nm illuminate a metal surface. There is also a uniform...

Photons with a wavelength of 440 nm illuminate a metal surface. There is also a uniform magnetic field of 25 ?T in the region. Thus, electrons ejected from the metal are bent into circular arcs with radii ranging from essentially zero up to a maximum radius of 12 cm. a) What is the maximum kinetic energy of electrons ejected from the metal (in eV)? b) What is the work function of the metal (in eV)? c) What wavelength of light...

Photons with a wavelength of 440 nm illuminate a metal surface. There is also a uniform...

Photons with a wavelength of 440 nm illuminate a metal surface. There is also a uniform magnetic field of 25 ?T in the region. Thus, electrons ejected from the metal are bent into circular arcs with radii ranging from essentially zero up to a maximum radius of 24 cm. a) What is the maximum kinetic energy of electrons ejected from the metal (in eV)? b) What is the work function of the metal (in eV)? c) What wavelength of light...