Syllabus Edition

First teaching 2023

First exams 2025

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Terminal Speed (SL IB Physics)

Revision Note

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Terminal Speed

  • For a body in free fall in a vacuum, the only force acting is weight, and its acceleration g is only due to gravity
  • The frictional force from fluid resistance increases as the body accelerates
    • This increase in velocity means the viscous drag force also increases
  • Due to Newton’s Second Law, this means the resultant force and therefore acceleration decreases (recall F = ma)
  • When the viscous drag force is equal to the weight on the body, the body will no longer accelerate and will fall at a constant velocity
    • This velocity is called the terminal velocity
  • Terminal velocity can occur for objects falling through a gas or a liquid

Terminal Velocity diagram (1), downloadable AS & A Level Physics revision notes

Terminal Velocity diagram (2), downloadable AS & A Level Physics revision notes

Terminal Velocity diagram (3), downloadable AS & A Level Physics revision notes

A skydiver in freefall reaching terminal velocity

  • The graph shows how the velocity of the skydiver varies with time
  • Since acceleration is equal to the gradient of a velocity-time graph, it can be seen that
    • The acceleration decreases
    • The acceleration eventually becomes zero when terminal velocity is reached
  • After the skydiver deploys their parachute, they decelerate to a lower terminal velocity to reduce the impact on landing

  • This is demonstrated by the graph below:

terminal-velocity-graph, IGCSE & GCSE Chemistry revision notes

A graph showing the changes in speed of the skydiver throughout their entire journey in freefall

Worked example

Skydivers jump out of a plane at intervals of a few seconds.

Skydivers A and B want to join up as they fall.

WE - Terminal velocity question image, downloadable AS & A Level Physics revision notes

Skydiver A is heavier than Skydiver B, and both skydivers can be assumed to have the same surface area and volume.

If the two skydivers want to reach terminal velocity at the same time, who should jump first?

Answer:

Step 1: Recall the factors that affect terminal velocity during free fall:

  • Weight:  the heavier the person, the greater the weight acting on them
  • Therefore, a heavier person will reach a higher terminal velocity
  • Drag:  the heavier the person, the greater the drag force required to balance the extra weight
  • Therefore, a heavier person will reach terminal velocity faster

Step 2: Determine which skydiver will reach a higher terminal velocity

  • Skydiver A has a greater mass (and weight), so he will reach a higher terminal velocity (than B)
  • Skydiver B has a lower mass (and weight), so he will reach a lower terminal velocity (than A)

Step 3: Determine which skydiver will reach terminal velocity first

  • The acceleration due to gravity is initially the same for both skydivers
  • However, the drag force increases at a faster rate for the heavier skydiver (A), hence they will reach terminal velocity first

Step 4: Determine which skydiver should jump first

  • Skydiver B should jump first since he will take longer to reach terminal velocity
  • This is because skydiver A has a higher mass, and hence, weight
  • More weight means a greater speed, therefore, A will reach terminal velocity faster than B

Exam Tip

A common misconception is that skydivers move upwards when their parachutes are deployed - however, this is not the case, they are in fact decelerating to a lower terminal velocity.

If a question considers air resistance to be ‘negligible’ this means in that question, air resistance is taken to be so small it will not make a difference to the motion of the body. You can take this to mean there are no drag forces acting on the body.

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Ashika

Author: Ashika

Ashika graduated with a first-class Physics degree from Manchester University and, having worked as a software engineer, focused on Physics education, creating engaging content to help students across all levels. Now an experienced GCSE and A Level Physics and Maths tutor, Ashika helps to grow and improve our Physics resources.