Photoelectrons from a material whose work function is 2.29 eV are ejected by 487 nm photons....

(1) (A) If the power output of a 675 kHz radio station is 53.0 kW, how...

(1) (A) If the power output of a 675 kHz radio station is 53.0 kW, how many photons per second are produced? If the radio waves are broadcast uniformly in all directions, find the number of photons per second per square meter at a distance of 130 km. Assume no reflection from the ground or absorption by the air. (B)Photoelectrons from a material whose work function is 2.39 eV are ejected by 477 nm photons. Once ejected, how long does...

A metal surface has a work function of 3.18 eV. Determine whether photoelectrons are ejected or...

A metal surface has a work function of 3.18 eV. Determine whether photoelectrons are ejected or not and if so, calculate their maximum kinetic energy, when the surface is illuminated by light of wavelength of (a) 310 nm and (b) 460 nm.

Light of wavelength 270 nm strikes a metal whose work function is 1.9 eV. What is...

Light of wavelength 270 nm strikes a metal whose work function is 1.9 eV. What is the shortest de Broglie wavelength for the electrons that are produced as photoelectrons?

Light of wavelength 300 nm strikes a metal whose work function is 2.0 eV. What is...

Light of wavelength 300 nm strikes a metal whose work function is 2.0 eV. What is the shortest de Broglie wavelength for the electrons that are produced as photoelectrons? Express your answer using two significant figures. λmin=    m

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)?

The work function of an element is 3.2 eV. Photons of a certain energy are found...

The work function of an element is 3.2 eV. Photons of a certain energy are found to eject electrons with a kinetic energy of 6.5 eV. (a) What is the speed of the ejected electrons? (c) If the photon energy is increased by a factor of two, what is the kinetic energy of the ejected electrons? (b) What is the photon frequency? (Please make numbers legible and with units)

What power, is dissipated in 21.8 μs by 0.59×1015 electrons ejected from a material by 123...

What power, is dissipated in 21.8 μs by 0.59×1015 electrons ejected from a material by 123 nm photons, if they are bound to the material by 4.53 eV?

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...

The work function for aluminum is 4.2 eV. (a) What is the cutoff frequency of light...

The work function for aluminum is 4.2 eV. (a) What is the cutoff frequency of light incident on an aluminum target that releases photoelectrons from its surface? (b) Find the corresponding cutoff wavelength. (c) If photons of energy 5.0 eV are incident on an aluminum target what is the maximum kinetic energy of the ejected photoelectrons? (d) what is the maximum velocity of a photoelectron traveling from the anode to the cathode of a photocell? (d) If a blue beam...