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Motion.

Published byHarold Thornton Modified over 5 years ago

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Presentation on theme: "Motion."— Presentation transcript:

1 Motion

2 Menu Stopping Distances Speed Velocity Distance – Time Graphs
Acceleration Velocity – Time Graphs

3 Stopping distance of vehicles is affected by….
The Thinking Distance And the… Braking Distance

4 What affects the ‘Thinking Distance?
Too much Alcohol Tiredness Thinking Distance Poor Visibility Drugs

5 What affects the ‘Braking Distance?
Icy Roads Wet Roads Braking Distance Driving Too Fast Brakes/ Tyres Worn

6 Identify whether the ‘Thinking distance’ or ‘Braking distance’ is affected in each case

7 Stopping Distances Increase alarmingly with extra speed (because velocity is squared!)
Kinetic Energy Transferred = Work Done by Brakes ½ mv = f x d v = speed of car f = maximum braking force d = braking distance Return to menu

8 Speed Speed is how fast you are going with NO Regard to Direction d
Distance (m) Speed (m/s)= Time (s) d The units of speed are m/s s x t

9 You can measure your own speed…..
Time how long it takes you to run/ walk a set distance record your results in a table and use the equation to calculate your speed Speed = distance/ time

10 Calculate the speed of this runner
He has run 100m in 10 seconds Distance Speed = Time = 100/ 10 = 10 m/s

11 Calculate the speed of this car
It has travelled 6000 metres in 15 minutes Don’t forget to write out your equation, show your workings, convert minutes to seconds and include units!

12 Calculate the distance this cyclist (Lance Armstrong) has covered
He has cycled at 15 m/s for 3 hours Remember time must be in seconds! (Convert hours to seconds) Return to Menu

13 Velocity Velocity is how fast you are going (with Regard to Direction)
Distance (m) Velocity (m/s) = Time (s) d The units of Velocity are m/s v x t Return to Menu

14 Distance-time graphs 40 30 At Rest 20 10 10 20 30 40 50 Return to Menu
Decelerating (In Opposite Direction) Decelerating 40 30 20 10 At Rest Steady Speed Steady Speed (In Opposite Direction) Distance (m) Accelerating Time (s) Return to Menu

15 Questions Distance Time Graphs
80 60 40 20 Questions Distance Time Graphs Distance (metres) Time/s What is the speed of the dog during the first 20 seconds? How far is the dog from the start after 60 seconds? What is the speed of the dog during the last 40 seconds? When was the dog travelling the fastest? Return to Menu

16 Acceleration Acceleration is how fast you are speeding up (or how quickly your velocity is changing) Change in Velocity (m/s) Acceleration (m/s2) = Time (s) V The units of acceleration are a x t (m/s2)

17 Acceleration = change in velocity
Example:-This footballer is about to accelerate! Calculate his acceleration He is initially at rest and within 3 seconds he has reached a velocity of 9m/s Acceleration = change in velocity time = (9m/s – 0m/s) 3s = 3 m/s2

18 This skier accelerates from 0 to 10m/s in 5 seconds
This skier accelerates from 0 to 10m/s in 5 seconds. What is her acceleration?

19 This motor bike accelerates from 10 to 20m/s with an acceleration of 2m/s2. How long did this take?

20 A rocket accelerates from rest to 5,000m/s in 2 seconds
A rocket accelerates from rest to 5,000m/s in 2 seconds. What is its acceleration? Return to Menu

21 Calculate the acceleration of this bullet
The bullet was initially at rest and reached a velocity of 300m/s in just 0.2 seconds

22 Velocity - time graphs 40 30 20 10 10 20 30 40 50 Steady Speed
Steady Speed Increasing Acceleration Steady Speed Deceleration Velocity (m/s) Acceleration Time (s)

23 Questions velocity Time graphs
120 90 60 30 Questions velocity Time graphs Velocity m/s Time (s) How fast was the motor bike going after 10 seconds? What is the acceleration from 20 to 30 seconds? What was the deceleration from 30 to 50s? How far did the motor bike travel in total?

24 Velocity - time graph for terminal velocity
Velocity m/s Parachute has opened Terminal Velocity Hits the ground New terminal velocity reached Time s

25 Velocity - time graph for a parachutist on the moon (Remember No air!)
There is NO terminal velocity The parachutist is experiencing less gravitational force & does not accelerate as fast Velocity m/s Hits the ground (HARD!) Parachute has opened Time s Return to Menu

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