Class 12PhysicsDual Nature of Radiation and matterEinstein's Photoelectric Equation and Energy Quantum of Radiation
EasyThe photoelectric threshold wavelength for a certain metal surface is $3300 \,\mathring{A}$. What is the maximum kinetic energy of the photoelectrons emitted if radiations of wavelength $1100 \,\mathring{A}$ are used?
- A$1 \,eV$
- B$2 \,eV$
- C$7.5 \,eV$
- DNo electron is emitted
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The wavelength of light in the visible region is about $390\; nm$ for violet colour,about $550\; nm$ (average wavelength) for yellow-green colour and about $760\; nm$ for red colour.
$(a)$ What are the energies of photons in $(eV)$ at the $(i)$ violet end,$(ii)$ average wavelength (yellow-green colour),and $(iii)$ red end of the visible spectrum? (Take $h=6.63 \times 10^{-34} \;J s$ and $1 \;eV = 1.6 \times 10^{-19} \;J$)
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Metal Work function $\phi_{0} (eV)$ Metal Work function $\phi_{0} (eV)$ $Cs$ $2.14$ $Al$ $4.28$ $K$ $2.30$ $Hg$ $4.49$ $Na$ $2.75$ $Cu$ $4.65$ $Ca$ $3.20$ $Ag$ $4.70$ $Mo$ $4.17$ $N$ $5.15$ $Pb$ $4.25$ $Pt$ $5.65$
$(a)$ What are the energies of photons in $(eV)$ at the $(i)$ violet end,$(ii)$ average wavelength (yellow-green colour),and $(iii)$ red end of the visible spectrum? (Take $h=6.63 \times 10^{-34} \;J s$ and $1 \;eV = 1.6 \times 10^{-19} \;J$)
$(b)$ From which of the photosensitive materials with work functions listed in the table,and using the results of $(i), (ii)$ and $(iii)$ of $(a)$,can you build a photoelectric device that operates with visible light?
| Metal | Work function $\phi_{0} (eV)$ | Metal | Work function $\phi_{0} (eV)$ |
| $Cs$ | $2.14$ | $Al$ | $4.28$ |
| $K$ | $2.30$ | $Hg$ | $4.49$ |
| $Na$ | $2.75$ | $Cu$ | $4.65$ |
| $Ca$ | $3.20$ | $Ag$ | $4.70$ |
| $Mo$ | $4.17$ | $N$ | $5.15$ |
| $Pb$ | $4.25$ | $Pt$ | $5.65$ |
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View SolutionWhen photons of energies twice and thrice the work function of a metal are incident on the metal surface one after other,the maximum velocities of the photoelectrons emitted in the two cases are $V_1$ and $V_2$ respectively. The ratio $V_1: V_2$ is
When the light of frequency $2v_0$ (where $v_0$ is threshold frequency) is incident on a metal plate,the maximum velocity of electrons emitted is $v_1$. When the frequency of the incident radiation is increased to $5v_0$,the maximum velocity of electrons emitted from the same plate is $v_2$. The ratio of $v_1$ to $v_2$ is
MediumNEET 2018
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