Terminal Velocity
- For a body in free fall, the only force acting is its weight and its acceleration g is only due to gravity.
- The drag force increases as the body accelerates
- This increase in velocity means the drag force also increases
- Due to Newton’s Second Law, this means the resultant force and therefore acceleration decreases (recall F = ma)
- When the drag force is equal to the gravitational pull on the body, the body will no longer accelerate and will fall at a constant velocity
- This velocity is called the terminal velocity
A skydiver in freefall reaching terminal velocity
- The graph shows how the velocity of the skydiver varies with time
- Since the acceleration is equal to the gradient of a velocity-time graph, the acceleration decreases and 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:
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.
If A is heavier than B, who 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 higher acceleration and hence higher speed, therefore, A will reach terminal velocity faster than B
Worked example
The diagram below shows the graph of velocity v against time t for the ball as it travels through the oil. The ball enters the oil at time t = 0.In terms of the forces acting on the ball, describe and explain its motion at
a) Point A
b) Point B
Part (a)
At A:
- The drag force is greater than the weight of the ball
- Therefore, the ball is decelerating
Part (b)
At B:
- The drag force is equal to the weight
- The ball has reached terminal velocity and is no longer decelerating
Exam Tip
- Exam questions about terminal velocity commonly involve the motion of skydivers as they fall
- 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