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In the charged-particle trace scenario, a beam of ions bends inside a magnetic detector. Which option best applies the AQA A-Level Physics objective to calculate magnetic force on a moving charged particle. while avoiding using Fleming?s left-hand rule backwards?

Try the question, check the answer, then read the explanation to understand the curriculum point.

At a glance

MCQ

Type

practice

Style

Topic

Magnetic fields

Exam-style question

Try this first

In the charged-particle trace scenario, a beam of ions bends inside a magnetic detector. Which option best applies the AQA A-Level Physics objective to calculate magnetic force on a moving charged particle. while avoiding using Fleming?s left-hand rule backwards?.

  1. A.field-case-20: Apply Calculate magnetic force on a moving charged particle. within Moving charges in a magnetic field.
  2. B.field-case-20: Treat Moving charges in a magnetic field as separate from Magnetic fields, so the measured field idea is not used.
  3. C.field-case-20: Choose a memorised equation without checking direction, sign, field geometry or units.
  4. D.field-case-20: Replace the A-Level fields reasoning with a broad GCSE label only.

Model answer

What a good answer should say

  • The correct option is field-case-20: Apply Calculate magnetic force on a moving charged particle.
  • within Moving charges in a magnetic field.

Explanation

Why this works

It is correct because it keeps the reasoning inside Moving charges in a magnetic field and answers the approved learning objective: Calculate magnetic force on a moving charged particle. The other options are weaker because they switch to the wrong fields concept, ignore the measured quantity, lose direction or sign information, or use a generic statement instead of A-Level Physics reasoning.

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