Skip to content
Oak National Academy
Oak National Academy
View my library
0
Teachers
Pupils
New
New
Year 10
OCR
Foundation

Velocity on a graph (v = s ÷ t)

I can sketch accurate displacement-time graphs of different motions.

Download all resources
Share activities with pupils
New
New
Year 10
OCR
Foundation

Velocity on a graph (v = s ÷ t)

I can sketch accurate displacement-time graphs of different motions.

Download all resources
Share activities with pupils

These resources will be removed by end of Summer Term 2025.

Switch to our new teaching resources now - designed by teachers and leading subject experts, and tested in classrooms.

These resources were created for remote use during the pandemic and are not designed for classroom teaching.

View new resources

Lesson details

Key learning points

  1. The velocity of an object is equal to the gradient of a displacement-time graph.
  2. A direction in which velocity and displacement are measured needs to be chosen.
  3. A negative gradient on a displacement-time graph (sloping downwards) represents velocity in the opposite direction.
  4. A negative value for displacement represents a position ‘behind’ the starting position.

Keywords

  • Displacement - The displacement of an object is the distance and direction from a specific point. Displacement is a vector.

  • Displacement-time graph - A displacement-time graph shows the displacement of an object over a period of time.

  • Motion sensor - A motion sensor measures the distance between itself and an object. We can use the measurements to calculate and plot graphs of displacement, velocity and acceleration.

Common misconception

Negative values on a displacement-time graph always represent motion that is backwards.

Provide opportunities for pupils to plot a range of displacement-time graphs in real time in order for them to understand how the graph represents different motions.


To help you plan your year 10 physics lesson on: Velocity on a graph (v = s ÷ t), download all teaching resources for free and adapt to suit your pupils' needs...

Allow pupils to plot displacement-time graphs in small groups using a motion sensor on their desk to detect the position of a dynamics trolley they move towards or away from the sensor. A piece of cardboard taped to the back of the trolley provides a reliable target.
Teacher tip

Equipment

See additional materials.

Content guidance

  • Risk assessment required - equipment

Supervision

Adult supervision required

Licence

This content is © Oak National Academy Limited (2025), licensed on Open Government Licence version 3.0 except where otherwise stated. See Oak's terms & conditions (Collection 2).

Lesson video

Skip lesson video

Loading...

Prior knowledge starter quiz

Download quiz pdf

6 Questions

Q1.
Some swimmers compete in a 50m race. Their times are shown. Starting with the fastest, sort the swimmers in order of their speeds.

An image in a quiz
1 - 29.9 s
2 - 30.2 s
3 - 31.1 s
4 - 31.2 s
5 - 31.4 s

Q2.
Which of the following are vector quantities?

distance
Correct answer: displacement
speed
Correct answer: velocity
mass

Q3.
A rocket has a velocity of 200 m/s upwards. What distance will the rocket travel upwards in 30 s?

6.7 m
Correct answer: 6000 m
60 000 m
3000 m
600 m

Q4.
A jogger runs for 250 s and they end up 625 m west of their starting point. Calculate the average velocity of the jogger.

Correct answer: 2.5 m/s west
0.4 m/s west
375 m/s west
5.0 m/s west

Q5.
Two trains are travelling in the same direction. Train A has a speed of 6.5 m/s and train B has a speed of 5.5 m/s. What is the relative speed of the two trains?

Correct Answer: 1.0 m/s, 1.0 metre per second, 1 m/s, 1 metre per second, 1.0 metres per second

Q6.
An small airplane travels 45 km north in 30 minutes. Calculate the average velocity of the airplane in m/s.

An image in a quiz
1.5 m/s north
22 m/s north
Correct answer: 25 m/s north
1500 m/s north
6.6 m/s north

Assessment exit quiz

Download quiz pdf

6 Questions

Q1.
Match the key word or phrase to the explanation.

Correct Answer:displacement,a vector which is the distance and direction from a point

a vector which is the distance and direction from a point

Correct Answer:velocity,a vector that gives speed and direction

a vector that gives speed and direction

Correct Answer:displacement–time graph,shows the displacement of an object over a period of time

shows the displacement of an object over a period of time

Correct Answer:motion sensor,measures the distance between an object and itself

measures the distance between an object and itself

Q2.
Which feature of a displacement-time graph shows the velocity?

the intercept on the displacement axis (y-axis)
the intercept on the displacement time (x-axis)
the area beneath the line
Correct answer: the gradient of the line
the maximum on the displacement axis

Q3.
An ultrasonic motion sensor is used to measure displacement of a ball. Put each step in order to explain how the sensor works.

1 - the sensor sends out an ultrasound pulse
2 - the sound pulse travels to the ball
3 - the sound pulse reflects off the ball
4 - the sound pulse travels to the sensor
5 - the sensor detects the pulse
6 - the speed of sound and the time information are used to calculate displacement

Q4.
Which line on the graph show the highest velocity?

An image in a quiz
A (red)
B (blue)
Correct answer: C (black)
D (green)

Q5.
Select the options which describe the motion between 1 s and 5 s.

An image in a quiz
Correct answer: positive displacement
positive velocity
Correct answer: negative velocity
Correct answer: constant velocity
changing velocity

Q6.
A pupil has plotted a graph to show their movement as they run across the classroom. Why is this graph unrealistic?

An image in a quiz
Correct answer: The change in their velocity is too sudden.
Their velocity is too high for a human to run.
The velocity is too low for running.
It does not take into account the direction of travel.
They have not given the graph a title.

Additional material

Download additional material