J J Science Academy

Subject: PhysicsTopic: 4. Linear kinematicsSubTopic: 4.6 Motion GraphsTest Type: ______Marks: ______Time: ______Date: ______

1). Velocity-time curves plotted for two bodies are straight lines passing through origin. The slope of v-t curve for two bodies X and Y is 3 and 2 respectively. In a given time interval, the ratio of displacement of X to that of Y is

1) $(\frac{9}{4})$ 2) $(\frac{4}{9})$ 3) $(\frac{2}{3})$ 4) $(\frac{3}{2})$

2). The area under speed-time graph gives

1) displacement of the body. 2) acceleration of the body. 3) distance travelled by the body. 4) average speed of the body.

3). For a body moving with uniform acceleration along straight line, the variation of its velocity ( v ) with position ( x ) is best represented by

1) Option 1 2) Option 2 3) Option 3 4) Option 4

4). The x-t graph of a body, is as shown in the figure. Its velocity will be positive in the region

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1) AB 2) BC 3) DE 4) All of the above

5). The x -t graph of a body, is as shown in the figure, the acceleration will be negative in the region

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1) AB 2) CD 3) DE 4) All of the above

6). The $(x-t)$ graph of a body, is as shown in the figure, the acceleration could be zero in the region

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1) CD 2) AB 3) BC 4) All of the above

7). The x -t graph of a body, is as shown in the figure, the velocity of the body changes the direction of motion in the region

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1) CD 2) AB 3) BC 4) None of the above

8). A performs circular motion, with origin as the centre. Consider a point A , on the circular path on +X -axis. The displacement-time graph, with respect to this point will be

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1) Option 1 2) Option 2 3) Option 3 4) Option 4

9). Area under curves in which of the following graphs cannot be negative?

1) speed-time 2) velocity-time 3) acceleration-time 4) none of the above

10). Which one of the following time-displacement graph represents two moving objects P and Q with zero relative velocity?

1) Option 1 2) Option 2 3) Option 3 4) Option 4

11). Figure shows v-t graphs. For which graph is displacement maximum?

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1) a 2) b 3) c 4) d

12). The velocity-time graph for a body in motion is as shown in the figure. The acceleration of the particle is zero at

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1) A 2) B 3) C 4) D

13). The velocity-time graph for a body in motion is as shown in the figure. The direction of velocity changes at

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1) D 2) B 3) C 4) both (1) and (2)

14). The velocity-time graph for a body in motion is as shown in the figure. In the region BC, the acceleration is

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1) zero 2) positive. 3) negative. 4) first positive, then negative.

15). The velocity-time graph for a body in motion is as shown in the figure. Which region could the acceleration be negative?

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1) AB 2) CD 3) DE 4) beyond E

16). The velocity-time graph for a body in motion is as shown in the figure. The displacement would be negative in the region

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1) AB 2) BD 3) DE 4) beyond E

17). The velocity-time graph for a body in motion is as shown in the figure. The average acceleration of the body from A to E is

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1) positive. 2) negative. 3) zero. 4) cannot be determined.

18). A particle moves along x -axis in such a way that its x -coordinate varies with time according to the equation $(x= 4-2t+t^2)$. The speed of the particle will vary with time as

1) Option 1 2) Option 2 3) Option 3 4) Option 4

19). Which graph represents uniform motion?

1) Option 1 2) Option 2 3) Option 3 4) both (1) and (2)

20). The displacement versus time graph for a body moving in a straight line is shown in figure. Which of the following regions represents the motion, when no force is acting on the body?

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1) ab 2) bc 3) cd 4) de

21). The displacement time graph for the two particles A and B are straight lines inclined at angles of $(30^{\circ})$ and $(60^{\circ})$ with the time-axis. The ratio of the velocities $(v_A: v_B)$ will be

1) $(1:2)$ 2) $(1:\sqrt{3})$ 3) $(\sqrt{3}:1)$ 4) $(1:3)$

22). Velocity-time graph of a body is as shown in figure below. Acceleration of body at $(t=3)$ is

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1) $(7.5 m/s^2)$ 2) $(5 m/s^2)$ 3) $(10.5 m/s^2)$ 4) $(15.5 m/s^2)$

23). Velocity-time graph of a body is as shown in figure below. Displacement of body from $(t=2 s)$ to $(t=7 s)$ is

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1) 45 m 2) 35 m 3) 50 m 4) 55 m

24). Figure below shows the time-acceleration graph for a particle in rectilinear motion. The average acceleration in first twenty seconds is

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1) $(45 m/s^2)$ 2) $(40 m/s^2)$ 3) $(15 m/s^2)$ 4) $(20 m/s^2)$

25). A body is dropped from a certain height. It takes 4 sec to reach the ground. The displacement-time graph will be

1) Option 1 2) Option 2 3) Option 3 4) Option 4

26). A body is dropped from a certain height. It takes 4 sec to reach the ground. The speed time graph will be

1) Option 1 2) Option 2 3) Option 3 4) Option 4

27). Which one of the following time-displacement graph represents two moving objects P and Q with zero relative velocity?

1) Option 1 2) Option 2 3) Option 3 4) Option 4

28). A particle moves along X -axis in such a way that its x -coordinate varies with time t according to the equation: x $(=(8+8t+4t^2) m)$. The velocity of the particle will vary with time according to the graph

1) Option 1 2) Option 2 3) Option 3 4) Option 4

29). The displacement-time graph of a body is as shown in the figure. The body experiences positive acceleration in the region

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1) AB 2) BC 3) CD 4) nowhere on graph

30). The displacement time graph for the two particles A and B are straight lines inclined at angles of $(30^{\circ})$ and $(60^{\circ})$ with the time-axis. The ratio of the velocities $(v_A: v_B)$ will be

1) $(1:2)$ 2) $(1:\sqrt{3})$ 3) $(\sqrt{3}:1)$ 4) $(1:3)$

31). A lift is going up. The variation in the speed of the lift is as given in the graph. What is the height to which the lift takes the passengers?

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1) 3.6 m 2) 28.8 m 3) 36.0 m 4) cannot be calculated from the above graph.

32). The velocity ( v ) - time ( t ) graph of a body in a straight line is as shown in the figure. The displacement of the body in five seconds is

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1) 2 m 2) 3 m 3) 4 m 4) 5 m

33). A particle starts from rest. Its acceleration $(a)$ versus time $(t)$ graph is as shown in the figure. The maximum speed of the particle will be

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1) $(110 m/s)$ 2) $(55 m/s)$ 3) $(550 m/s)$ 4) $(660 m/s)$

34). Figure shows the time-displacement curve of the particles P and Q . Which of the following statement is CORRECT?

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1) Both P and Q move with uniform equal speed. 2) P is accelerated Q is retarded. 3) Both P and Q move with uniform speeds but the speed of P is more than the speed of Q . 4) Both P and Q move with uniform speeds but the speed of Q is more than the speed of P.

35). The speed of a car as a function of the time is shown in the figure given below. The distance travelled by the car is

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1) 160 m in 8 sec . 2) 80 m in 8 sec . 3) 40 m in 8 sec . 4) 80 m in 4 sec .

36). A body is dropped from a certain height h . The speed-time graph from the time it is dropped, till it reaches its original position is

1) Option 1 2) Option 2 3) Option 3 4) Option 4

37). The velocity-time graph of a body is as shown in figure below. The displacement of body from $(t=2 s)$ to $(t=7 s)$ is

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1) 45 m 2) 35 m 3) 50 m 4) 55 m

38). On displacement time graph, two straight lines make angle $(60^{\circ})$ and $(30^{\circ})$ with time axis. The ratio of the velocities represented by them is

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1) $(1:2)$ 2) $(1:3)$ 3) $(2:1)$ 4) $(3:1)$