Balanced & Unbalanced Forces (AQA GCSE Physics)

Revision Note

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Katie M

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Katie M

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Resolving Forces (HT only)

  • Combining more than one force vector can result in
    • Balanced forces - where there is no resultant force
    • Unbalanced forces - where there is a resultant force

  • If a force acts at an angle, the force may be broken down or resolved
  • A single force can be resolved into two parts (components)
    • A horizontal component
    • A vertical component

force-components-igcse-and-gcse-physics-revision-notes

The force (shown in red) may be broken into two components (shown in blue): a vertical one and a horizontal one

  • When several forces act on an object in different directions, the resultant force can be found by adding the arrows together
  • The two component arrows are placed head to tail with the single force starting at the tail of the first vector and ending at the head of the second

unbalanced-resultant-igcse-and-gcse-physics-revision-notes

The resultant force can be found by adding the arrows together in a “head to tail” manner

  • If the force arrows from a closed loop, then the forces are balanced, in other words, there is no resultant force

balanced-resultant, IGCSE & GCSE Physics revision notes

The forces in the above diagram form a closed loop – they are balanced

Examiner Tip

The resultant force is sometimes also known as the net force or the unbalanced force, so if you see any of these phrases used in an exam - don't panic, they all mean the same thing!

Using Scale Drawings (HT only)

  • Resolving vectors into components allows for more accurate calculations of resultant forces
  • By resolving all of the involved forces into their horizontal and vertical components and then adding or subtracting as required, a final resultant force vector can be constructed using a scale diagram

  • There are two methods that can be used to combine vectors using a scale diagram: the triangle method and the parallelogram method
  • To combine vectors using the parallelogram method:

    • Step 1: link the vectors tail-to-tail

    • Step 2: complete the resulting parallelogram

    • Step 3: the resultant vector is the diagonal of the parallelogram

    • Step 4: The magnitude of the resultant vector can be found by measuring the length of the arrow

In the triangle method, place the vectors head to tail and draw the missing side of the triangle as the resultant vector. For the parallelogram method, link the vectors tail to tail, complete the parallelogram, then draw the resultant vector as the diagonal of the parallelogram

Worked example

The diagram below shows two rhinos pushing against a vehicle. The two forces are at right angles to each other.Rhino Scale Drawing, downloadable IGCSE & GCSE Physics revision notesDraw a scale vector diagram to determine the magnitude of the resultant force. Label the two forces applied and the resultant, and clearly state the scale used.

Step 1: Decide on a suitable scale

    • A scale of 1 cm to 1.0 kN is the most suitable for this scenario

Step 2: Use grid paper to draw the vectors top to tail and to scale

Rhino Scale Drawing Ans 1, downloadable IGCSE & GCSE Physics revision notes

Step 3: Draw the resultant vector and measure its length

5-1-8-rhino-scale-drawing-ans-2

Step 4: Use the scale to convert the length to kN

    • The resultant force is 8.6 cm, meaning the resultant force is equal to 8.6 kN

Examiner Tip

Students can often find scale diagrams intimidating to begin with. Start with a question that has an easy scale, for example, 1 square or 1 cm is equal to 1 unit, like the question in the worked example above. This will allow you to become familiar with the process, and as your confidence grows you can try more challenging questions. You do have to be very precise with scale diagrams, so always use a ruler and a sharp pencil, and remember to take a rubber into the exam, just in case.

Scan the exam paper as soon as you are allowed to open it, to see if you have a scale diagram question (or a graph plotting question). You will need to allocate some time to completing these more involved question types without rushing, so it is better to know in advance, rather than being surprised when you turn the page!

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Katie M

Author: Katie M

Expertise: Physics

Katie has always been passionate about the sciences, and completed a degree in Astrophysics at Sheffield University. She decided that she wanted to inspire other young people, so moved to Bristol to complete a PGCE in Secondary Science. She particularly loves creating fun and absorbing materials to help students achieve their exam potential.