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HomephysicsMoments
4PH1

Moments

Forces & Motion · 1 question type

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4PH1 Topics

Movement & Position12%
Forces, Movement & Changing Shape14%
Momentum10%
Moments7%
  1. The Moment of a Force
  2. The Principle of Moments
  3. Centre of Gravity

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High (≥14%)
Above avg (10 to 13%)
Average (<10%)

Exam Frequency Analysis

Past paper frequency (2018 to 2024)

This topic accounts for approximately 7% of your exam marks.

stable
Low
Stable7%

Principle of moments and centre of gravity tested regularly as structured questions.

What a moment is

  • A moment is the turning effect of a force about a fixed point called the
  • A force does not always make an object change its straight-line motion; if the object is free to rotate about a hinge or axle, the force instead makes it spin
  • Common everyday moments include:
    • the handle of a door rotating about its hinges
    • a spanner loosening a bolt
    • a child on one end of a see-saw lifting another child at the far end
    • a screwdriver prising open a tin lid
    • a tap being twisted on or off
    • a wheelbarrow being tipped up to be wheeled
    • the blades of a pair of scissors closing about the rivet
  • The rotation may be clockwise or anticlockwise, depending on which side of the pivot the force is applied and which way it points

The equation

M = F × d

  • where:
    • M = moment of the force (newton metres, N m)
    • F = force applied (N)
    • d = from the pivot to the line of action of the force (m)
  • The unit follows from the equation: newton × metre → newton metre (N m). If the lever arm is given in centimetres, the moment can equally be quoted in N cm; convert to metres unless the question asks otherwise

Why the distance must be perpendicular

  • The lever arm d is the shortest distance from the pivot to the line along which the force acts, measured at right angles to that line
  • A force pointing straight at the pivot has zero perpendicular distance, so it produces no no matter how large it is; it simply tries to push the pivot itself
  • For a beam lying flat, only the vertical forces (those pointing straight up or straight down) turn it about a pivot on the beam; a force directed along the length of the beam contributes no moment at all

Long lever arms make life easier

  • For a fixed pivot, a longer lever arm reduces the force you must apply to get the same moment
  • Real-life consequences:
    • A door is far easier to push open at the handle (far from the hinge) than near the hinge itself; the same moment comes from a much smaller hand force when d is large
    • A wheel nut wrench with a long extension bar makes seized nuts shift that a stubby spanner cannot
    • A short crowbar prises open a crate with a much smaller hand force than fingers alone
Worked example

Calculating a moment

A spanner applies a force of 40 N at a perpendicular distance of 0.30 m from the centre of the nut (the pivot).

Solution:

  • Write the formula: moment = force × perpendicular distance
  • Substitute: moment = 40 × 0.30
  • = 12 N m