Lesson 2 2 Analysing Motion kkGraph

S M K TAMAN MOUNT AUSTIN

EN. MOHD SABRI BIN NOR LESSON 2.2 - Analysing Motion Graph

LESSON 2.2 ANALYSING MOTION GRAPHS

Velocity  – Time graphs

Introduction The motion graphs is a useful method of summarising the motion of an object. In the graph the nature of the motion can be seen quite clearly. Gradient = acceleration Area under the graph = displacement d isplacement Displacement  – time graphs

Example 2

The following is the velocity-time graph of a car.

Gradient = Velocity

Example 1

The following figure shows displacement  – time graph of an object. Based on the graph, (a) Calculate the acceleration of the car between (i) JK (ii) KL (iii) LM (iv) MP (vii) NO (vi) PN (b) State the type of motion of the car between (ii) KL (i) JK (iv) MP (iii) LM (vii) NO (vi) PN (c) Calculate the total displacement travelled of the car during the first 10 s of motion (i) (ii) the car moves with uniform velocity (iii) the last 10 s of motion (d) Calculate (i) the total displacement for the whole  journey. (ii) the total distance for the whole journey. (e) Calculate (i) the average velocity (ii) the average speed

Based on the graph (a) calculate the velocity of the object between (i)  AB (iii) CD

(ii)

BC

(b) describe the motion of the object between (i) AB (ii) BC (iii) CD Solution

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Bidang sains dan matematik LESSON 2.2 - Analysing Motion Graph

The conclusion of the motion graphs Graph

Solution

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Bidang sains dan matematik LESSON 2.2 - Analysing Motion Graph

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TUTORIAL 2.2 1

The graph shows how the velocity,v of an object changes with time,t.

 An object moves with an uniform acceleration. With of the following shows the motion of the object. ?

Which section of the graph shows the object moving with a decreasing acceleration ?

A C

2 Which graph correctly describes the object moving with an increasing acceleration.

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 PQ RS

B D

QR ST

The graph shows how the velocity,v of an object changes with time,t.

If the motion of the object is illusterated by displacement,s against time,t graph ,which of the following is true.

3

The figure shows a ball is released from rest and rolls down on a frictionless track. Which of the following graphs correctly describes the motion of the ball?

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3

The graph shows how the displacement,s of an object changes with time,t.

Bidang sains dan matematik LESSON 2.2 - Analysing Motion Graph

Which of the following can be deduced from the graph? 7

The following figure shows the velocity,v against time, t.

A B C D

The car accelerates uniformly The car decelerates until it stops The car first accelerates and then moves with a steady velocity The car first decelerates and then moves with a steady velocity

Which of the following graphs is its corresponding acceleration,a against time , t graph?

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Based on the velocity –time graph above calculate the deceleration.

A C E

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B

C

9

B D

 30 ms-2 1.25 ms-2

11  A skier is traveling downhill. The acceleration on hard snow is 4 ms-2 and on soft snow is 2 ms -2. Which graph shows the motion of the skier when moving from hard snow to soft snow?

Which of the following cases represents a uniformly accelerated motion? A

60 ms-2 2.5 ms 2 0.5 ms 2

 A straight line with constant slope in a velocity-time graph  A straight line with constant slope in an acceleration-time graph  A straight line with constant slope in a displacement -time graph

The graph shows how the velocity of a car changes with time

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Bidang sains dan matematik LESSON 2.2 - Analysing Motion Graph

A C E

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Based on the displacement – time graph above what is the total displacement.,

A C E

B D

0m 10 m 50 m

15

,

16

13

A C E

550 m 700 m 1800 m

B D

3.0 ms 1 5.8 ms 1 8.4 ms-1

B D

4.6 ms-1 6.2 ms-1

 10 20 45

B D

15 30

640 m 900 m

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14

9 ms-1 4 ms-1

If the average velocity from the graph velocitytime above is15 ms-1 , find the value of v ?

A C E

Based on the graph velocity  – time above , calculate the total distance travelled during the first 80 s of motion.

B D

Based on the velocity –time graph above calculate the average velocity.

A C E

5m 20 m

10 ms-1 6 ms-1 2 ms-1

Based on the velocity –time graph above calculate the average velocity.

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Based on the v against t above, which region of the graph shows the maximum average velocity

Bidang sains dan matematik LESSON 2.2 - Analysing Motion Graph

18  A man runs a race against a cat. Below is a graph showing how they moved during the race.

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(a)

What was the distance for the race? …………………………………………………

(b)  After how many seconds did the cat overtake the man?

Figure (a) shows a track of a toy car . It takes 3 s to travel from P to Q , 5 s from Q to R and another 11 s from R to S. Figure B shows distance – time graph represents the motion of the toy car. (a)

(i) Which region of the graph shows the maximum speed of the car.

………………………………………………....

(c)

(d)

…………………………………………

How far from the start did the cat overtake the man?

(ii)

………………………………………………… What was the c at’s time for the race?

…………………………………………

…………………………………………………

(e)

(f)

Give the reason for your answer in (a)(i)

(b)

What is the total displacement of the car for the whole journey.

(c)

What is the total distance of the car for the whole journey.

Calculate the average speed of the man.

What is the speed of the cat after 16 seconds.

(d) Calculate the average velocity for the whole journey.

(e) Calculate the average speed for the whole  journey.

(f)

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Plot graph speed – time for the whole  journey of the car.

Bidang sains dan matematik LESSON 2.2 - Analysing Motion Graph

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While traveling along the road at 20 ms-1 , a car driver suddenly sees the road ahead blocked at the distance 62 m from the car. He applies the brakes as fast as he can. Once the brakes are applied , the car still moves fastly. He applies the brakes again more strongly until it stops before the road block. The following graph shows the motion of the car.

(a) How long the driver takes the time during he starts see the road block until the brakes are effective.

(b) Calculate the distance between the car and the road block when the car stop.

(c) Based on the graph velocity- time above , sketch the graph acceleration- time.

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