A-Level AQA Physics Alpha, Beta & Gamma Radiation: Figure 1 shows a sealed radioact

Question

Figure 1 shows a sealed radioactive source used in schools and colleges.

1.1 State two safety procedures to reduce risk when using this type of source.

1.2 A sealed source contains radium-226 (
^{226}Ra).

^{226}Ra decays by emitting 
	ext{α} and 
	ext{β} particles to produce 
^{206}Pb which is stable.

Figure 2 is a graph of neutron number N against proton number Z, showing the different ways that 
^{226}Ra can decay into 
^{206}Pb.

Points A to M represent all the unstable nuclei that may be formed as 
^{226}Ra decays into 
^{206}Pb.

1.3 Determine the number of routes by which B can change into K.

1.4 Identify which of the nuclei A to M are common to all the possible ways that 
^{226}Ra decays into 
^{206}Pb.

1.5 A sealed source emits 
γ radiation in addition to 
α particles.
A student uses the sealed source to investigate the inverse-square law for 
γ radiation.
The student begins by making measurements to find the count rate 
A_b for background radiation.

State and explain procedures to eliminate systematic error in the measurements used to find 
A_b.

1.6 Figure 3 shows an aluminium absorber placed between the sealed source and a radiation detector.
This is to make sure that only 
γ radiation from the source reaches the detector.

The sealed source emits:

ext{α} particles with energy 
E_	ext{α} between 3.8 MeV and 7.8 MeV

ext{β} particles with energy 
E_	ext{β} between zero and 5.5 MeV.

Figure 4 shows how the energy of 
	ext{β} particles in aluminium depends on 
E_k.

1.7 Deduce the minimum thickness of the aluminium absorber that should be used in the experiment.

1.8 Ionisation takes place inside the detector. The effective distance travelled by 
γ radiation from the source is 
(d + 	ext{ε}).
The distance 	ext{ε}, shown in Figure 5, cannot be measured directly.

From the inverse-square law for 
γ radiation, it can be shown that

A_b is the count rate, corrected for background radiation 
(k	ext{ is a constant}

where 
A_b = 	ext{count rate}/k.

Figure 6 shows the student plots the graph of 
(d / A_b) against 
rac{1}{	ext{A}_b^{0.5}}

1.9 Deduce 
(d) using Figure 6.

Explain your reasoning.
Give a suitable unit for your result.

1.10 Determine 	ext{u} using Figure 6.

Figure 1 shows a sealed radioactive source used in schools and colleges - AQA - A-Level Physics - Question 1 - 2019 - Paper 3

Worked Solution & Example Answer:Figure 1 shows a sealed radioactive source used in schools and colleges - AQA - A-Level Physics - Question 1 - 2019 - Paper 3

State two safety procedures to reduce risk when using this type of source.

Determine the number of routes by which B can change into K.

Identify which of the nuclei A to M are common to all the possible ways that 226Ra decays into 206Pb.

State and explain procedures to eliminate systematic error in the measurements used to find Ab.

Deduce the minimum thickness of the aluminium absorber that should be used in the experiment.

Deduce d using Figure 6.

Determine u using Figure 6.

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