AS Daily A Level Physics question

2026-05-12 OCR A Mechanics & Materials (M3) OCR Physics A (H156/H556) Module 3: Forces and motion — 3.1.1 Kinematics (uniform acceleration; motion under gravity, g = 9.81 m s−2) OCR Physics A (H156/H556) Module 2: Foundations in physics — 2.1.1 Physical quantities and units (use of proportional reasoning)

In a lab drop test, a steel ball is released from rest and falls vertically under gravity (take g = 9.81 m s−2; air resistance negligible). From a certain height, the average fall time is 0.50 s. The technician wants the fall time to be 20% longer while keeping everything else the same. Which change to the release height achieves this, to the nearest percent?

A Increase the release height by 20%.
B Increase the release height by 32%.
C Increase the release height by 40%.
D Increase the release height by 44%. (correct)

Answer

The correct answer is D.

Correct: D — Increase the release height by 44%. For a drop from rest under constant g, the distance fallen is proportional to time squared, so making time 1.2 times larger makes height 1.2^2 = 1.44 times larger, i.e. a 44% increase. A assumes height is directly proportional to time (t ∝ h), which is incorrect here. B corresponds to a mistaken partial-squaring or rounding error; the required factor is 1.44, not 1.32. C assumes a simple linear scaling or rough doubling error; the correct square gives 44%, not 40%. D follows from h ∝ t^2, giving a 1.44 factor and hence a 44% increase.

Try today's guest Daily MCQ A Level Physics MCQ practice Problem-solving previews