Radioactivity — A-Level Physics Revision

Revise Radioactivity for A-Level Physics. Step-by-step explanation, worked examples, common mistakes and exam-style practice aligned to AQA, Edexcel and OCR.

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This topic: Radioactivity in A-Level Physics: explanation, examples, and practice links on this page.
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What is Radioactivity?

Radioactivity is the spontaneous and random decay of unstable atomic nuclei, which results in the emission of ionising radiation. This topic covers the properties of the three main types of radiation - alpha, beta, and gamma - including their nature, penetrating power, and ionising ability. You will also study the exponential nature of radioactive decay, described by the concepts of half-life, activity, and the decay constant.

Board notes: Radioactivity is a fundamental topic in the nuclear physics section of all A-Level specifications (AQA, Edexcel, OCR). All boards cover the properties of alpha, beta, and gamma radiation, and the mathematics of exponential decay, including half-life and the decay constant. The applications and dangers of radioactivity are also a common focus.

Step-by-step explanation

Worked example

A radioactive sample has a half-life of 10 minutes. If it initially contains 8.0 x 10^12 undecayed nuclei, how many will remain after 30 minutes? 30 minutes is equal to 3 half-lives (30/10 = 3). After 1 half-life, 4.0 x 10^12 remain. After 2 half-lives, 2.0 x 10^12 remain. After 3 half-lives, 1.0 x 10^12 undecayed nuclei will remain.

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Common mistakes

1Confusing the properties of alpha, beta, and gamma radiation. A common mistake is to mix up their relative ionising powers and penetrating abilities. Alpha is highly ionising but has low penetration, while gamma is weakly ionising but has high penetration.
2Thinking that half-life is the time it takes for half of a substance to disappear. Half-life is the time it takes for half of the *unstable nuclei* to decay, or for the *activity* of the sample to halve. The mass of the sample does not halve.
3Using inconsistent units in decay calculations. The decay constant (λ) and time (t) must be in inverse units (e.g., s⁻¹ and s, or year⁻¹ and years) for the exponential decay equations to work correctly.

Radioactivity exam questions

Exam-style questions for Radioactivity with mark-scheme style solutions and timing practice. Aligned to AQA, Edexcel and OCR specifications.

Radioactivity exam questions

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Step-by-step method

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4 steps · Worked method for Radioactivity

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Frequently asked questions

What is radioactive decay?
Radioactive decay is a random and spontaneous process where an unstable atomic nucleus loses energy by emitting radiation, such as an alpha particle, beta particle, or gamma ray. The nucleus changes into a different nuclide or a lower energy state.
What is activity of a radioactive source?
Activity is the rate at which nuclei in a radioactive source decay. It is measured in Becquerels (Bq), where 1 Bq is equal to one decay per second.

At a glance

What StudyVector is

An exam-practice platform with board-aligned questions, explanations, and adaptive next steps.

This topic

Radioactivity in A-Level Physics: explanation, examples, and practice links on this page.

Who it’s for

Students revising A-Level Physics for UK exams.

Exam boards

Practice is aligned to major specifications (AQA, Edexcel, OCR, WJEC, Eduqas, Cambridge International (CIE), SQA, IB, AP).

Free plan

What makes it different

Syllabus-shaped practice and progress tracking—not generic AI answers.

What is Radioactivity?

Step-by-step explanation

Worked example

Common mistakes

1Confusing the properties of alpha, beta, and gamma radiation. A common mistake is to mix up their relative ionising powers and penetrating abilities. Alpha is highly ionising but has low penetration, while gamma is weakly ionising but has high penetration.

2Thinking that half-life is the time it takes for half of a substance to disappear. Half-life is the time it takes for half of the *unstable nuclei* to decay, or for the *activity* of the sample to halve. The mass of the sample does not halve.

3Using inconsistent units in decay calculations. The decay constant (λ) and time (t) must be in inverse units (e.g., s⁻¹ and s, or year⁻¹ and years) for the exponential decay equations to work correctly.

Try a practice question

Practice QuestionQ1

2 marks

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Step-by-step method

Step-by-step explanation

4 steps · Worked method for Radioactivity

Core concept

3 more steps below

3 steps locked

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Frequently asked questions

What is radioactive decay?

Radioactive decay is a random and spontaneous process where an unstable atomic nucleus loses energy by emitting radiation, such as an alpha particle, beta particle, or gamma ray. The nucleus changes into a different nuclide or a lower energy state.

What is activity of a radioactive source?

Activity is the rate at which nuclei in a radioactive source decay. It is measured in Becquerels (Bq), where 1 Bq is equal to one decay per second.