(D) According to Einstein's photoelectric equation, the maximum kinetic energy $(K_{max})$ of photoelectrons is given by: $K_{max} = h\nu - \Phi_0$ wh

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linearly with the frequency of incident radiation and is independent of its intensity.

(D) According to Einstein's photoelectric equation, the maximum kinetic energy $(K_{max})$ of photoelectrons is given by: $K_{max} = h\nu - \Phi_0$ where $h$ is Planck's constant, $\nu$ is the frequency of incident radiation, and $\Phi_0$ is the work function of the metal. From this equation, it is clear that $K_{max}$ varies linearly with the frequency $(\nu)$ of the incident radiation. Furthermore, the maximum kinetic energy is independent of the intensity of the incident radiation, as intensity only affects the number of photoelectrons emitted per unit time.

Class 12 Physics Dual Nature of Radiation and matter Einstein's Photoelectric Equation and Energy Quantum of Radiation

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The maximum kinetic energy of the photoelectrons varies:

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inversely with the intensity of incident radiation and is independent of its frequency.
B
inversely with the frequency of incident radiation and is independent of its intensity.
C
linearly with the frequency of incident radiation and depends on its intensity.
D
linearly with the frequency of incident radiation and is independent of its intensity.

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Dual Nature of Radiation and matter

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Einstein's Photoelectric Equation and Energy Quantum of Radiation

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The work function of nickel is $5 \text{ eV}$. When light of wavelength $2000 \text{ Å}$ falls on it,it emits photoelectrons. The potential difference necessary to stop the fastest emitted electrons is (given $h = 6.67 \times 10^{-34} \text{ J-s}$): (in $\text{ V}$)

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Photoelectrons are emitted when photons of energy $4.2 \text{ eV}$ are incident on a photosensitive metallic sphere of radius $10 \text{ cm}$ and work function $2.4 \text{ eV}$. The number of photoelectrons emitted before the emission is stopped is
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What is zero-point energy or Fermi energy?

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The maximum kinetic energy of the photoelectrons varies:

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The work function of nickel is $5 \text{ eV}$. When light of wavelength $2000 \text{ Å}$ falls on it,it emits photoelectrons. The potential difference necessary to stop the fastest emitted electrons is (given $h = 6.67 \times 10^{-34} \text{ J-s}$): (in $\text{ V}$)

$A$ photon of energy $8\,eV$ is incident on a metal surface of threshold frequency $1.6 \times 10^{15}\,Hz$. The maximum kinetic energy of photoelectrons emitted is .......... $eV$.(Take $h = 6.6 \times 10^{-34}\,J\cdot s$; $1\,eV = 1.6 \times 10^{-19}\,J$)

The maximum kinetic energy of the emitted photoelectrons from a photosensitive material of work function $\phi$,when light of frequency $\nu$ is incident on it,is $E$. If the frequency of the incident light is $3\nu$,the maximum kinetic energy of the emitted photoelectrons is:

What is zero-point energy or Fermi energy?

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$A$ photon of energy $8\,eV$ is incident on a metal surface of threshold frequency $1.6 \times 10^{15}\,Hz$. The maximum kinetic energy of photoelectrons emitted is .......... $eV$.
(Take $h = 6.6 \times 10^{-34}\,J\cdot s$; $1\,eV = 1.6 \times 10^{-19}\,J$)