Speed & Velocity

Speed

The speed of an object is the distance it travels every second
Speed is a scalar quantity
- This is because it only contains a magnitude (without a direction)
The average speed of an object is given by the equation:

$a v e r a g e s p e e d = \frac{t o t a l d i s t a n c e}{t i m e t a k e n}$

The SI units for speed are meters per second (m s⁻¹) but speed can often be measured in alternative units e.g. km h⁻¹ or mph, when it is more appropriate for the situation

Velocity

The velocity of a moving object is similar to its speed and also describes the direction of the velocity

Velocity is defined as:

The rate of change of position

Velocity is, therefore, a vector quantity because it describes both magnitude and direction

The difference between speed and velocity

Speed is a scalar quantity whilst velocity is vector
- Velocity is the speed in a given direction

Speed & Velocity, downloadable IGCSE & GCSE Physics revision notes

The cars in the diagram above have the same speed (a scalar quantity) but different velocities (a vector quantity). Fear not, they are in different lanes!

This means velocity can also have a negative value
- E.g. a ball thrown upwards at a velocity of 3 m s^–1comes down at a velocity –5 m s^–1, if upwards is considered positive
- However, their speeds are still 3 m s^–1 and 5 m s^–1 respectively

Instantaneous Speed & Velocity

The instantaneous speed (or velocity) is the speed (or velocity) of an object at any given point in time
This could be for an object moving at a constant velocity or accelerating
- An object at constant velocity is shown by a straight line on a displacement – time graph
- An object accelerating is shown by a curved line on a displacement – time graph
- An accelerating object will have a changing velocity
To find the instantaneous velocity on a displacement-time graph:
- Draw a tangent at the required time
- Calculate the gradient of that tangent

Instantaneous velocity on s-t graph, downloadable AS & A Level Physics revision notes

The instantaneous velocity is found by drawing a tangent on the displacement time graph

In the graph above, at t = 9 s, the velocity is:

$g r a d i e n t = \frac{10 - 0}{14 - 5} = 1.11 m s^{- 1}$

Average Speed & Velocity

The average velocity $\bar{v}$ of an object can be calculated using

$\bar{v} = \frac{∆ x}{∆ t}$

Where:
- $∆ x$ = total displacement, or change in position (m)
- $∆ t$ = total time taken (s)

If the initial velocity u and final velocity v are known, the average velocity can also be calculated from

$\bar{v} = \frac{(u + v)}{2}$

To find the average velocity on a displacement-time graph, divide the total displacement (on the y-axis) by the total time (on the x-axis)
- This method can be used for both a curved or a straight line on a displacement-time graph

Worked example

Florence Griffith Joyner set the women’s 100 m world record in 1988, with a time of 10.49 s.

Calculate her average speed during the race.

Answer:

Sprinters typically speed up from rest to a maximum speed
Because Florence’s speed changes over the course of the race, we can calculate her average speed using the equation:

average speed = total distance ÷ time taken

Where:
- Total distance, s = 100 m
- Time taken, t = 10.49 s

average speed = 100 ÷ 10.49 = 9.5328 = 9.53 m s⁻¹

Worked example

The variation of displacement of a box sliding across a rough surface with time t is shown on the graph below.

1-1-2-instantaneous-velocity-we-ib-2025-physics

The magnitudes of the instantaneous velocities of the trolley at time t₁ and t₂ are v₁ and v₂ respectively.

List the following velocities in order from fastest to slowest:

v₁

v₂

average velocity

Answer:

Step 1: Sketch the velocities from the graph

The instantaneous velocity is the gradient of a tangent at a certain time

1-1-2-instantaneous-velocity-we-solution-ib-2025-physics

The average velocity is the total displacement over the total time

Step 2: Compare the gradients of each velocity

The fastest velocity will have the steepest gradient and the slowest velocity the shallowest gradient
In order from fastest to slowest:

v₁ > average velocity > v₂

Exam Tip

When you draw a tangent to a curve, make sure it just touches the point at which you wish to calculate the gradient. The angle between the curve and the tangent line should be roughly equal on both sides of the point.

If you are asked to find the instantaneous velocity from a graph, you will be told the time at which they want this velocity for.

Speed & Velocity (SL IB Physics)

Revision Note

Speed & Velocity

Speed

Velocity

The difference between speed and velocity

Instantaneous Speed & Velocity

Average Speed & Velocity

Worked example

Worked example

Exam Tip

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Author: Ashika