大象传媒

How can we describe motion? - OCR 21st CenturyVelocity-time graphs

The movement of objects can be described using motion graphs and numerical values. These are both used to help in the design of faster and more efficient vehicles.

Part of Combined ScienceExplaining motion

Velocity-time graphs

Determining acceleration

If an object moves along a straight line, its motion can be represented by a velocity-time (or speed-time) graph. The gradient of the line is equal to the of the object.

A velocity/time graph. Graph with four distinct sections. All lines are straight.

The table shows what each section of the graph represents:

Section of graphGradientVelocityAcceleration
APositiveIncreasingPositive
BZeroConstantZero
CNegativeDecreasingNegative
D (v = 0)ZeroStationary (at rest)Zero
Section of graphA
GradientPositive
VelocityIncreasing
AccelerationPositive
Section of graphB
GradientZero
VelocityConstant
AccelerationZero
Section of graphC
GradientNegative
VelocityDecreasing
AccelerationNegative
Section of graphD (v = 0)
GradientZero
VelocityStationary (at rest)
AccelerationZero

Calculating displacement - Higher

The area under the graph can be calculated by:

  • using geometry (if the lines are straight)
  • counting the squares beneath the line (particularly if the lines are curved)

Example

Calculate the total displacement of the object - its motion is represented by the velocity-time graph below.

The y axis shows velocity in metres per second and the x axis time in seconds.  The object increases its velocity from 0 metres per second to 8 metres per second in 4 seconds.

Here, the displacement can be found by calculating the total area of the shaded sections below the line.

1. Find the area of the triangle:

area of triangle = \(\frac{1}{2}\) 脳 base 脳 height

= \(\frac{1}{2}\) 脳 4 脳 8 = 16 m2

2. Find the area of the rectangle:

area of rectangle = base 脳 height

= (10 - 4) 脳 8 = 48 m2

3. Add the areas together to find the total displacement:

(16 + 48) = 64 m