Difference between revisions of "Velocity-Time Graph"

Latest revision as of 10:59, 25 December 2019

Key Stage 4

Meaning

A velocity-time graph is a graph that shows how the velocity of an object changes with time.

About Velocity Time Graphs

Velocity-time graphs give information about the journey taken by an object.

On a velocity-time graph the velocity is plotted on the y-axis and the time is plotted on the x-axis.

A velocity-time graph can be used to calculate the acceleration of an object or the distance travelled by the object.

The gradient of a velocity-time graph is the same as the acceleration.

The area under the curve on a velocity-time graph is the distance travelled by an object.

Constant Velocity	Accelerating	Decelerating

A gradient of zero shows the object is travelling at a constant velocity.	Acceleration is shown by a positive gradient.	Deceleration is shown by a negative gradient.

Example Calculations

Calculating Acceleration

The acceleration can be calculated from a velocity-time graph by reading the graph and using the equation \(a=\frac{v-u}{t}\).

Calculate the acceleration of the object in this journey.	Calculate the acceleration of the object in this journey.

State the known variables. v = 40m/s u = 20m/s t = 8s	State the known variables. v = 10m/s u = 40m/s t = 8s
2. Substitute the numbers into the equation and solve. \(a = \frac{v-u}{t}\) \(a = \frac{40-20}{8}\) \(a = \frac{20}{8}\) \(a = 2.5m/s/s\)	2. Substitute the numbers into the equation and solve. \(a = \frac{v-u}{t}\) \(a = \frac{10-40}{8}\) \(a = \frac{-30}{8}\) \(a = -3.75m/s/s\)

Calculate the acceleration of the object at each stage in this journey.

A	B	C
State the known variables. v = 30m/s u = 0m/s t = 2s	State the known variables. v = 30m/s u = 30m/s t = 3s	State the known variables. v = 50m/s u = 30m/s t = 3s
2. Substitute the numbers into the equation and solve. \(a = \frac{v-u}{t}\) \(a = \frac{30-0}{2}\) \(a = \frac{30}{2}\) \(a = 15m/s/s\)	2. Substitute the numbers into the equation and solve. \(a = \frac{v-u}{t}\) \(a = \frac{30-30}{3}\) \(a = \frac{0}{3}\) \(a = 0m/s/s\)	2. Substitute the numbers into the equation and solve. \(a = \frac{v-u}{t}\) \(a = \frac{50-30}{3}\) \(a = \frac{20}{3}\) \(a = 6.7m/s/s\)

Calculating Distance Travelled

The distance travelled can be calculated from a velocity-time graph by breaking the graph into simple shapes and finding the area of those shapes. This may use the equations \(area = base \times height\) for rectangular shapes and \(area = \frac{base \times height}{2}\) for triangular shapes.

Calculate the distance travelled by the object in this journey.	Calculate the distance travelled by the object in this journey.

1. State the known quantities base = 8s height = 30m/s	1. State the known quantities base = 8s height = 40m/s
2. Substitute the numbers into the equation and solve. \(area = b \times h\) \(area = 8 \times 30\) \(area = distance = 250m\)	2. Substitute the numbers into the equation and solve. \(area = \frac{b \times h}{2}\) \(area = \frac{8 \times 40}{2}\) \(area = \frac{320}{2}\) \(area = distance = 160m\)

Calculate the distance travelled by the object at each stage in this journey.

A	B	C
State the known variables. b = 2s h = 30m/s	State the known variables. b = 3s h = 30m/s	State the known variables. b = 3s h₁ = 30m/s h₂ = 50m/s
2. Substitute the numbers into the equation and solve. \(area = \frac{b \times h}{2}\) \(area = \frac{2 \times 30}{2}\) \(area = \frac{60}{2}\) \(area = distance = 30m\)	2. Substitute the numbers into the equation and solve. \(area = b \times h\) \(area = 3 \times 30\) \(area = distance = 90m\)	2. Substitute the numbers into the equation and solve. \(area = b \times h\) \(area = 3 \times 30\) \(area = distance = 90m\) for yellow shaded area. \(area = \frac{b \times h}{2}\) \(area = \frac{3 \times (50-30)}{2}\) \(area = \frac{60}{2}\) \(area = distance = 30m\) for red area. Total distance = 120m

References

AQA

Velocity-time graph, pages 148-9, GCSE Physics; Student Book, Collins, AQA

Velocity-time graphs, page 211, GCSE Combined Science; The Revision Guide, CGP, AQA

Velocity-time graphs, pages 136, 138-141, GCSE Physics; Third Edition, Oxford University Press, AQA

Velocity-time graphs, pages 152-3, GCSE Physics, Hodder, AQA

Velocity-time graphs, pages 155-157, GCSE Combined Science Trilogy; Physics, CGP, AQA

Velocity-time graphs, pages 186-188, GCSE Physics; The Complete 9-1 Course for AQA, CGP, AQA

Velocity-time graphs, pages 230-1, 234, GCSE Combined Science Trilogy 2, Hodder, AQA

Velocity-time graphs, pages 62, 63, GCSE Physics; The Revision Guide, CGP, AQA

Velocity-time graphs; area under, pages 156, 157, GCSE Combined Science Trilogy; Physics, CGP, AQA

Velocity-time graphs; area under, pages 187, 188, GCSE Physics; The Complete 9-1 Course for AQA, CGP, AQA

Velocity-time graphs; for falling objects, page 192, GCSE Physics; The Complete 9-1 Course for AQA, CGP, AQA

OCR

Velocity-time graphs, page 162, Gateway GCSE Combined Science; The Revision Guide, CGP, OCR

Velocity-time graphs, page 25, Gateway GCSE Physics; The Revision Guide, CGP, OCR

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 ''Total distance = 120m''
 |}
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