Syllabus Edition

First teaching 2020

Last exams 2024

|

The Photoelectric Effect (CIE A Level Physics)

Exam Questions

29 mins3 questions
1a
Sme Calculator
2 marks

Describe two phenomena associated with the photoelectric effect that cannot be explained using a wave theory of light.

1 ....................................................................................................................

2 ....................................................................................................................

1b
Sme Calculator
5 marks

The maximum energy Emax of electrons emitted from a metal surface when illuminated by light of wavelength λ is given by the expression

            E subscript m a x end subscript equals h c open parentheses 1 over lambda minus 1 over lambda subscript 0 close parentheses

where h is the Planck constant and c is the speed of light.

(i)
Identify the symbol lambda subscript 0.

[1]

(ii)
The variation with 1 over lambda of Emax for the metal surface is shown in Fig. 8.1.

q8b-ii-paper-4-specimen-2022-cie-ial-physics

Fig. 8.1

Use Fig. 8.1 to determine the magnitude of λo.



λo
= ....................................... m [1]

(iii)
Use the gradient of Fig. 8.1 to determine a value for the Planck constant h. Show your working.





h
= ................................. J s [3]

1c
Sme Calculator
2 marks

The metal surface in (b) becomes oxidised.

Photoelectric emission is still observed but the work function energy is increased.

On Fig. 8.1, draw a line to show the variation with 1 over lambda of Emax for the oxidized surface.

Did this page help you?

2a
Sme Calculator
2 marks

State what is meant by a photon.

2b
Sme Calculator
5 marks

Electromagnetic radiation of a varying frequency f and constant intensity I is used to illuminate a metal surface. At certain frequencies, electrons are emitted from the surface of the metal.  

(i)
State the name of this phenomenon.
[1] 
(ii)
The variation with f of the maximum kinetic energy EMAX of the emitted electrons is shown in Fig. 1.1.
7ssNjDy__22-1-2b-m-photoelectric-effect-energy-frequency-graph-cie-ial-sq
Fig. 1.1
 
Describe four conclusions that can be drawn from the graph in Fig. 1.1. The conclusions may be qualitative or quantitative.                                                   
                                              [1]      
2c
Sme Calculator
4 marks

The experiment in (b) is carried out twice more. Each time one change is made to the method used. 

State, and explain, how the graph obtained would compare with Fig. 1.1. when: 

(i)
the same metal is used, but with electromagnetic radiation of intensity I over 2
 
[2]
(ii)
a different metal is used, but the intensity of the radiation is the same.
 
[2]

Did this page help you?

3a
Sme Calculator
2 marks

State what is meant by the work function energy of a metal.

 
3b
Sme Calculator
2 marks

Ultraviolet radiation of frequency 8.5 × 1014 Hz is incident, in a vacuum, on a metal surface. The power of the radiation incident on the surface is 9.45 mW. Photoelectrons are emitted with a maximum kinetic energy of 2.1 × 10–19 J. 
 Determine the number of photons incident on the surface per unit time.

 
number per unit time = ...................................... s−1
3c
Sme Calculator
2 marks

Calculate the work function energy Φ of the metal.

 
Φ = ....................................... J 
3d
Sme Calculator
3 marks

The frequency of the radiation incident on the surface in (b) is decreased while the power remains constant 

State and explain the effect of this change on: 

(i)
the maximum kinetic energy of the photoelectron
 
[2]
(ii)
the rate of emission of the photoelectron.
 
[1]

Did this page help you?