MHT CET · Physics · Dual Nature of Matter
Maximum kinetic energy of photon is ' \(E\) ' when wavelength of incident radiation is ' \(\lambda\) '. If wavelength of incident radiations is reduced to \(\frac{\lambda}{3}\) then energy of photon becomes four times. Then work function of the metal is
- A \(\frac{3 \mathrm{hc}}{\lambda}\)
- B \(\frac{\mathrm{hc}}{3 \lambda}\)
- C \(\frac{\mathrm{hc}}{\lambda}\)
- D \(\frac{\mathrm{hc}}{2 \lambda}\)
Answer & Solution
Correct Answer
(B) \(\frac{\mathrm{hc}}{3 \lambda}\)
Step-by-step Solution
Detailed explanation
\(\mathrm{E}=\frac{\mathrm{hc}}{\lambda}-\phi_0\).... (i)
Given: \(\lambda=\frac{\lambda}{3}\) and \(\mathrm{E}=4 \mathrm{E}\)
\(\begin{aligned}
4 \mathrm{E} & =\frac{\mathrm{hc}}{\lambda / 3}-\phi_0 .... (ii)\\
& =\frac{3 \mathrm{hc}}{\lambda}-\phi_0 \\
4\left(\frac{\mathrm{hc}}{\lambda}-\phi_0\right) & =\frac{3 \mathrm{hc}}{\lambda}-\phi_0 ....(From (i))
\\
\frac{4 h \mathrm{c}}{\lambda}-4 \phi_0 & =\frac{3 \mathrm{hc}}{\lambda}-\phi_0 \\
\frac{h \mathrm{c}}{\lambda} & =3 \phi_0 \\
\phi_0 & =\frac{\mathrm{hc}}{3 \lambda}
\end{aligned}\)
Given: \(\lambda=\frac{\lambda}{3}\) and \(\mathrm{E}=4 \mathrm{E}\)
\(\begin{aligned}
4 \mathrm{E} & =\frac{\mathrm{hc}}{\lambda / 3}-\phi_0 .... (ii)\\
& =\frac{3 \mathrm{hc}}{\lambda}-\phi_0 \\
4\left(\frac{\mathrm{hc}}{\lambda}-\phi_0\right) & =\frac{3 \mathrm{hc}}{\lambda}-\phi_0 ....(From (i))
\\
\frac{4 h \mathrm{c}}{\lambda}-4 \phi_0 & =\frac{3 \mathrm{hc}}{\lambda}-\phi_0 \\
\frac{h \mathrm{c}}{\lambda} & =3 \phi_0 \\
\phi_0 & =\frac{\mathrm{hc}}{3 \lambda}
\end{aligned}\)
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