Modern Physics 2 Question 5

5. When a certain photosensitive surface is illuminated with monochromatic light of frequency $v$, the stopping potential for the photocurrent is $-V _0 / 2$. When the surface is illuminated by monochromatic light of frequency $v / 2$, the stopping potential is $-V _0$. The threshold frequency for photoelectric emission is

(Main 2019, 12 Jan II)

(a) $\frac{4}{3} v$

(b) $2 v$

(c) $\frac{3 v}{2}$

(d) $\frac{5 v}{3}$

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Solution:

  1. Relation between stopping potential and incident light’s frequency is $e V _0=h f-\varphi _0$. where, $V _0$ is the stopping potential and $\varphi _0$ is the the work function of the photosensitive surface.

So, from given data, we have,

$$ -e \frac{V _0}{2}=h v-\varphi _0 $$

and

$$ -e V _0=\frac{h v}{2}-\varphi _0 $$

Subtracting Eqs. (i) from (ii), we have

$$ \begin{array}{cc} -e V _0–\frac{e V _0}{2} & =\frac{h \nu}{2}-h \nu \Rightarrow-\frac{e V _0}{2}=-\frac{h \nu}{2} \\ \Rightarrow \quad e V _0 & =h \nu \end{array} $$

Substituting this in Eq. (i), we get

$$ \begin{aligned} & -\frac{e V _0}{2}=e V _0-\varphi _0 \\ \Rightarrow \quad & -\frac{3}{2} e V _0=-\varphi _0 \quad \text { or } \frac{3}{2} h \nu=\varphi _0 \end{aligned} $$

If threshold frequency is $v _0$ then

$$ h v _0=\frac{3}{2} h v \Rightarrow v _0=\frac{3}{2} v $$



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