In an experiment on the photoelectric effect, the frequency \(f\) of the incident light is plotted against the stopping potential \(V_0.\) The work function of the photoelectric surface is given by:
(\(e\) is an electronic charge)
1. | \(OB\times e\) in eV |
2. | \(OB\) in volt |
3. | \(OA\) in eV |
4. | The slope of the line \(AB\) |
The stopping potential as a function of the frequency of the incident radiation is plotted for two different photoelectric surfaces \(A\) and \(B\). The graphs demonstrate that \(A\)'s work function is:
1. | Greater than that of \(B\). | 2. | Smaller than that of \(B\). |
3. | Equal to that of \(B\). | 4. | No inference can be drawn about their work functions from the given graphs. |
1. | 2. | ||
3. | 4. |
1. | 2. | ||
3. | 4. |
1. | 2. | ||
3. | 4. |
The value of stopping potential in the following diagram is given by:
1. | \(-4\) V | 2. | \(-3\) V |
3. | \(-2\) V | 4. | \(-1\) V |
In the following diagram if , then,
(1)
(2)
(3)
(4)
A point source of light is used in an experiment on photoelectric effects. Which of the following curves best represents the variation of photocurrent \((i)\) with distance \((d)\) of the source from the emitter?
1. | \(a\) | 2. | \(b\) |
3. | \(c\) | 4. | \(d\) |
The stopping potential \((V_{0})\) versus frequency \((\nu_{0})\) plot of a substance is shown in the figure. What will be the threshold wavelength?
1. | \(5 \times 10^{14}~ \text{m}\) | 2. | \(6000~\mathring{A}\) |
3. | \(5000~\mathring{A}\) | 4. | Cannot be estimated from given data |
Figure represents a graph of kinetic energy (K) of photoelectrons (in eV) and frequency (v) for a metal used as cathode in photoelectric experiment. The work function of metal is
1. 1 eV
2. 1.5 eV
3. 2 eV
4. 3 eV