Class 11 Important Questions for Physics: Projectile Motion by infomatica001

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Projectile Motion â?&#x2013; Illustrative Examples 1) A train is travelling from west to east at an average speed of 120 km/hr. How far does this train travel in 6.0 second? Data :

(Ans.

In 6 s train travels distance

)

2) The speed of the car is reduced from 108 km/hr to 36 km/hr in 4.0 s. What is the distance travelled by car during this time interval? Data :

Initial Speed (u) time

(t)

Final Speed (v)

(Ans.

Distance travelled by car = 80 m.)

3) A man walks 80 m in 20 s, then turns back and then walks 50 m towards the starting point in 30 s. Find his average speed, average velocity. Data : Total distance travelled Total time taken

(Ans.

Average velocity = 0.60 m/s)

4) A scooter moving at the speed of 12 m/s is stopped by applying brakes which produces uniform retardation of 0.60 m/s2. How much distance will be covered by the scooter before it stops? Data : Initial speed (u) Final speed (v)

(as sector stops)

Accleration (a) Distance covered (s) (Ans.

Distance covered by the sector before it stops = 120 m)

5) Starting from rest, a car moves with uniform acceleration and attains a velocity of 72 km/hr in 20s. It then moves with uniform speed for 25s and is then brought to rest in 10s under uniform retardation. Find the total distance travelled using velocity time graph.

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Data :

From the given data, velocity time graph is drawn. It is shown below. (Ans.

Total distance travelled by

the car = 800 m.)

6) A body is projected with the velocity of 60 m/s at an angle of 30o with the horizontal. Calculate (i)

Maximum height

(ii)

Time of fight

(iii) Horizontal range of projectile, (assume g = 10 m/s2).

(Ans.

)

â?&#x2013; Theory Questions 1)

Distinguish clearly between distance and displacement of a projectile.

Explain in the terms :

Uniform Velocity

ii)

Average Velocity

iii)

Instantaneous Velocity

What is accelerated motion? Explain with necessary graph, uniformly accelerated linear motion in one dimension. Give two examples of each.

Discuss the position-time graph of i) a particle at rest and ii) a particle moving with constant velocity.

Discuss the velocity-time graph for a particle moving with i) a constant velocity ii) an increasing acceleration.

Define: i) Projectile ii) Angle of projection iii) Velocity of projection iv) Trajectory of a projectile

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What is a projectile? Derive an equation of the path of a projectile.

Define time of flight of a projectile. Obtain an expression for it.

9) Figure Fig. shows velocity-time graph for various situations. What does each graph indicate?

10) What is the horizontal range of a projectile? Derive an expression for it. 11) Discuss the condition for the maximum range of a projectile. Show that for a given velocity of projection, there are two angles of projection which give the same range of projectile. 12) Derive an expression for the maximum height attained by a projectile. 13) Explain the following terms: A. Displacement B. Path length 14) Define position. 15) Explain in brief why the position at all time instants must be specified to describe the motion of a particle. 16) Discuss the rules of sign convention in uniformly accelerated motion. 17) A. State main characteristics of displacement. B. Under which condition are the magnitude of path length and displacement equal ? 18) Explain the terms : A. Speed

B. Velocity

19) Explain uniform motion of a particle. OR 20) Write a short note on uniform motion. 21) Explain the terms: a. Average velocity

b. Instantaneous velocity

c. Uniform velocity

d. Average speed

e. Instantaneous speed

f. Average velocity

22) Explain the terms:

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d. Uniform acceleration

c. Instantaneous acceleration

e. Retardation

23) Distinguish between uniformly accelerated motion and non-uniform motion. 24) A. What do you mean by accelerated motion? B. State three kinematical equations for uniformly accelerated motion in vector form. 25) Derive the following relations for accelerated motion. i)

ii)

iii)

where symbols have their usual meaning. OR Derive the three kinematical equations for a body moving with uniform acceleration. 26) Explain the term: Acceleration due to gravity. 27) Explain the variation of acceleration, velocity and distance with time for an object under free fall. 28) Define the term relative velocity Explain with the help of one example. 29) Obtain an expression for relative velocity when two objects are moving along a straight line in the same direction. 30) Obtain an expression for relative velocity when two objects are moving along a straight line in opposite direction. 31) Define variable velocity. State the characteristics of motion of a body with variable velocity. 32) Discuss the position-time graph for two objects moving in the same direction with a. equal velocities b. unequal velocities 33) Explain the position-time graph of a particle moving with variable velocity. 34) State the characteristics of position-time graph 35) The position-time (x - t)children A and B returning from their school O to their homes P and Q respectively are shown in figure. Choose the correct entries in the brackets below. i.

(A/B) lives closer to the school than (B/ A/)

ii.

(A/B) starts from the school earlier than (B/A)

iii.

(A/B)walks faster than (B/A)

iv.

A and B reach home at (same/different) time

(A/B) overtakes (B/A) on the road (once/twice)

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36) Explain the velocity-time graph of a particle moving with constant acceleration. 37) Explain the velocity-time graph of a particle moving with decreasing acceleration. 38) Write the characteristics of velocity-time graph. 39) A ball thrown vertically upwards from a point P on earth reaches a point Q and returns back to earth striking at a point R. Draw speed - time graph to depict the motion of the ball (Neglect air resistance). 40) Read each statement below carefully and state with reasons and examples if it is true and false: For a particle in one - dimensional motion, i) with zero speed at any instant may have non-zero acceleration at that instant. ii) with zero speed has non-zero velocity. 41) Define the following terms: i) Projectile motion ii) Point of Projection 42) State the main assumptions which are used at the time of studying projectile motion. 43) For the projectile motion, show that time of ascent is equal to time of descent. 44) Define maximum height of a projectile. 45) When the horizontal range of an obliquely projected body is maximum, show that it is four times greater than the maximum height reached. 46) Draw trajectory curves which represent same velocity of projectile and different angles of projection. Discuss the conclusion drawn from it.

â?&#x2013; Problems For Practice 1) A car moves at a constant speed of 60 km/hr for 1 km and 40 km/hr for next 1 km. What is the average speed of the car?

(Ans : 48 km/hr)

2) A train travels at a speed -50 km/hr for 0.5 hr, at 30 km/hr for next 0.26 hr and then 70 km/hr for next 0.76 hr. What is the average speed of the train? (Ans : 56.58 km/hr) 3) Fig. shows variation of the car with time. i)

What is initial speed of the car?

ii)

What is the maximum speed attained by the car?

iii)

Which part of the graph shows zero acceleration?

iv)

Which part of the graph shows varying retardation?

Find the distance travelled by the car in first 6 second

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(Ans : 0 m/s, 20 m/s, AB, BC, 90 m) 4) A car is moving on a straight road with uniform acceleration. The speed of car varies with time as follows. Speed m/s

Time (s)

Draw the speed-time graph by, choosing a convenient scale. Calculate (i) the acceleration of a car. (ii) distance travelled by the car in 10 second.

(Ans : 0.5 m/s2, 75 m)

5) A man throws a ball to maximum horizontal distance of 80 m. Calculate the maximum height reached.

(Ans : 20 m)

6) A body is thrown with velocity of 40 m/s in a direction making an angle of 30o with the horizontal. Calculate i) Horizontal range, ii) Maximum height and iii) Time taken to reach the maximum height.

(Ans : 141.4 m, 20.41 m, 2.041s)

7) The speed of a car is reduced from 90 km/hr to 36 km/hr in 5 s. What is the distance travelled by the car during this time interval.

(Ans : 87.5 m)

8) A particle is projected with speed vo at an angle

to the horizontal on an inclined

surface making an angle

to the

horizontal. Find an expression for its range along the inclined surface.

(Ans :

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Projectile Motion

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9) A jet aeroplane travelling at the speed of 500 km/hr ejects its products of combusion at speed of 1500 km/hr relative to jet plane. What is the relative velocity of the latter with respect to an observer on the ground ?

(Ans : 1000 km/hr)

â?&#x2013; Practice problems â&#x17E;˘ Type-I : Problems based on kinematical equations. 1. A bail is dropped from the top of a building 122.5 m high. How long will it take to reach the ground? what will be its velocity when it strikes the ground. [Ans. i) Time taken to reach the ground is 5 s. ii. Velocity of the ball when it strikes the ground is 49 m/s. ] 2. A body starts from rest and moves with a uniform acceleration of 5 m/s2. What will be the velocity when it has covered a distance of 250 m? How much time will it require to cover this distance? [Ans: i. Velocity of the body after covering 250 m is 50 m/s ii. Time required to cover 250 m is 10 s] 3. A car moving along a straight highway with speed of 126 km IT1 is brought to a stop within a distance of 200 m. What is the retardation of the car (assumed uniform) and how long does it take for the car to stop ? [ Ans: i. Retardation of the car 3.06 ms-2 (in magnitude) ii. Time taken by car to stop is 11.4 s. 4. Two trains A and B of length 400 m each are moving on two parallel tracks with a uniform speed of 72 km h-l in the same direction, with A ahead of B. The driver of B decides to overtake A and accelerates by 1 ms-2. If after 50 s, the guard of B just brushes past the driver of A, what was the original distance between them? [Ans. The original distance between the trains was 450 m. ] 5. The initial velocity of a car is 5 m/s. It accelerates uniformly at 0.5 m /s2 for 30 s and then retards uniformly at 2 m/s2. Find the distance covered by the car before it comes to rest. For how' much time is the car in motion?

(Ans. 475 m, 40s)

6. A body starts from rest and moves with uniform acceleration of 0.25 m /s2. Find the distance travelled by it in 10 s and its velocity. Find also the distance covered by it in the 10th second of its motion.

(Ans. 12.5 m ,2.5 m/s, 2.375 m)

7. A body is projected vertically upwards with a velocity of 98 m/s. How high will it rise and how much time will it take to return to its point of projection ? [g = 9.8 m/s2] (Ans. 490 m , 20 s)

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8. A body let fall from the top of a vertical cliff covers 83.3 m in the last second of its motion. Find the height of the cliff [g = 9.8 m /s2]

(Ans. 396.9 m)

9. a tower and strikes the ground after two seconds at an angle of 45" with the horizontal. Find the height of the tower and the speed with which the body was thrown. [Take g = 9.8 ms-2.]

(Ans. 19.6 . 19.6 ms-1)

10. Two bodies are projected vertically upwards from the ground with velocities of 49 m/s and 2l m/s respectively. Find the difference between the maximum heights reached by them.

(Ans. 100 m)

â&#x17E;˘ Type-II: Problems based on relative velocity 11. A car moving at a speed 10 m/s on a straight road is ahead of car B moving in the same direction at 6 m/s. Find the velocity of A relative to B and vice-versa. [Ans. i. Velocity of A relative to B is 4 m/s. ii. Velocity of B relative to A is -4 m/s.] 12. Two trains 120 m and 80 m in length are running in opposite directions with velocities 42 km/h and 30 km/h respectively. In what time will they completely cross each other? (Ans. Time taken by the two trains to cross each other is 10 s.) 13. Train A moves with a uniform velocity of 60 kmh-1. Another train B moves in the same direction with a uniform velocity of 80kmh-1. (i) What is the relative velocity of A with respect of B? (ii) What is the relative velocity of B with respect to A? (Ans. -20 kmh-1 , 20kmh-1) 14. Two trains A and B are moving on parallel tracks with velocities of 60 kmh-1 and 90 kmh-1 respectively but in opposite directions. Find (i) the relative velocity of train A w.r.t. train B and (ii) the relative velocity of train A w.r.t. ground. (Ans. i. 150 kmh-1 , ii. -60 kmh-1) 15. A jet airplane travelling at the speed of 450 kmh-1 ejects the burnt gases at the speed of 1200 kmh-1 relative to the jet airplane. Find the speed of the burnt gases w.r.t. a stationary observer on earth.

(Ans. 750 kmh-1)

16. Two trains 120 m and 100 m in length are running in opposite directions on parallel tracks with velocities 40 kmh-l and 32 kmh-l. In what time will they completely cross each other?

(Ans. 11 s)

â&#x17E;˘ Type-III: Problems based on projectile motion 17. A bullet fired at an angle of 30o with the horizontal hits the ground 3 km away. By adjusting the angle of projection' can one hope to hit target 5 km away? Assume the

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muzzle speed to be fixed and neglect air resistance

18. A body is projected with a velocity of 3o ms-l at an angle of 30" with the vertical. Find i.

the maximum height

ii. time of flight and iii. the horizontal range (Ans. i. The maximum height reached by the body is 34.44m. ii. The time of flight of the body is 5.3 s. iii. The horizontal range of the body is 79.53 m. ) 19. A projectile has a range of 50 m and reaches a maximum height of 10 m. What is the elevation of the projectile? 20. A ball is thrown at an angle

(Ans . The elevation of the projectile is 38.660) and another ball is thrown at an angle (900-

) with

the horizontal direction from the same point with velocity 39.2 ms-1. The second ball reaches 50 m higher than the first ball, find their individual heights. [Take g = 9.8 ms-2] [Ans. i. Height reached by the first ball is 14.2 m. ii. Height reached by the second ball is 64.2m] 21. A body is thrown with a velocity of 49 m/s at an angle of 300 with the horizontal. Find i. the maximum height attained by it ii. the time of flight and iii. the horizontal range. (Ans. i. The maximum height attained by the body is 30.625 m ii. The time of flight of the body is 5 s. iii. The horizontal range of the body is 212.2 m.) 22. A fighter plane flying horizontally at a altitude of 1.5 km with a speed of 720 km/h passes directly overhead an anti-aircraft gun. At what angle from the vertical should the gun be fired for the shell with a muzzle velocity of 600 m/s to hit the plane? At what minimum altitude should the pilot fly to avoid being hit? [Take g:10 m /s2 ] 23. A projectile is projected at an angle of 600. If its time of flight is 16 sec, calculate its horizontal range.

(Ans. 724.25 m)

24. Two particles are projected horizontally from the top of a tower 122.5 m high. Their velocities of projection are 20 m/s and 50 m/s respectively. Compare their times of flight.

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25. A boy playing on the roof of a 10 m high building throws a ball with a speed of 10 ms-1 at an angle of 300 with horizontal. How far from the throwing point will the ball be at the height of 10 m from the ground? [g: 10 m/s-2]

(Ans. 8.66)

26. A cricketer can throw a ball to a maximum horizontal distance of 100 m. How much high above the ground can the cricketer throw the same ball?

(Ans. 50 m)

27. A shell is fired at an angle of 30o to the horizontal with a velocity of 196 ms-1. Find the total time of flight, horizontal range and maximum height attained. (Ans. 20 s, 3395 m, 490 m) 28. A stone is thrown up with a velocity of 39.2 m/s at 30o to the horizontal. Find at what values of time will it be at a height of 14.7 m?

(Ans. 1 s and 3 s)

➢ Type IV : Miscellaneous 29. Find the angle of projection so that a body when projected has the horizontal range equal to the maximum height attained.

(Ans. 75058’)

30. A car travels from A to B with a uniform velocity of 30 km/hr. and returns back with a uniform velocity of 40 km/hr. Find the average velocity and the average speed of the car if the distance AB is 120 km.

(Ans. Zero, 34.3 km/hr )

31. A stone is falling freely from the top of a tower 400 m high. At the same time another stone is projected upwards from the bottom of the tower with a speed of 100 m/s. Find when and where the two stones will meet? [g = 9.8 ms-2] (Ans. 4 seconds, 321.6 m from ground)

❖ Multiple Choice Questions 1. Which of the following changes, when a particle is moving with uniform velocity? (A) speed

(B) velocity

(D) position vector

2. If distance covered by a particle is zero, what can you say about its displacement? (A) It may or may not be zero (B) It cannot be zero (C) It is negative (D) It must be zero 3. A car travels half the distance velocity 50 km/h and another half with a constant velocity of 40 km/h, along a straight line. The average velocity of the car in km/h is (A) 45

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4. The velocity v versus t graph of a body in a straight line is as shown in figure. The displacement of the body in five seconds is (A) 2 m

(B) 3 m

(D) 5 m

5. A ball thrown up is caught by the thrower 6 s after start. The height to which the ball has risen is [g = 10 m/s2] (A) 0 m

(B) 30 m

(D) 90 m

6. A bullet fired into a block loses half its velocity after moving 0.9 m. Before it comes to rest, distance travelled would be 1.2 m

(B) 0.8 m

(D) 1.6 m

7. The range of projectile is 1.5 km when it is projected at an angle of 15Â° with horizontal. What will be its range when it is projected at an angle of 45Â° with the horizontal? (A) 0.75 km

(B)1.5 km

(D) 6 km

8. A stone thrown upward with a speed u from the top of the tower reaches the ground with a velocity 3u. The height of the tower is (A) 3 u2 / g

(B)4 u2/ g

(D) 9 u2 / g

9. With what speed must a ball be thrown down for it to bounce 10 m higher than its original level? Neglect any loss of energy in striking the ground. (A) 14 m/sec

(B) 20m/sec

(D) none

10. The velocity-time relation of a particle starting from rest is given by v = kt where k = 2 m/s2. The distance travelled in 3 sec is (A) 9 m

(B) 16 m

(D) 36 m

11. A particle at rest is dropped under gravity from a height h (g = 9.8 m/sec2) and if it travels a distance 9/25 h in the last second, then the height h is (A) 100 m

(B)122.5 m

(C)

145 m (D)

168.5 m

12. which of the following remains constant for a projectile fired from the earth? (A) Momentum (B) Kinetic energy (C) Vertical component of velocity (D) Horizontal component of velocity 13. In case of a projectile, what is the angle between the instantaneous velocity and acceleration at the highest point?

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(B)180°

(D) 00

14. What determines the nature of the path followed by a particle? (A) Velocity

(B) Speed

(D) straight line

15. A player kicks up a ball at an angle 0 with the horizontal. The horizontal range is maximum when

is equal to

(A) 30°

(B)450

(D) 90°

16. The greatest height to which a man can throw a stone is h. The greatest distance to which he can throw it will be (A) h /2

(B)2h

17. Two balls are projected at an angle

and (90° -

(D) 3h ) to the horizontal with the same

speed. The ratio of their maximum vertical heights is (A) 1:1

(B) tan

(D) tan2

18. When air resistance is taken into account while dealing with the motion of the projectile, which of the following properties of the projectile show an increase? (A) Range (B) maximum height (C) speed at which it strikes the ground (D) the angle at which the projectile strikes the ground 19. The maximum height attained by projectile is found to be equal to 0.433 of horizontal range. The angle of projection of this projectile is (A) 30°

(B)45°

(D) 75°

20. A projectile is thrown with an initial velocity of 50 m/s. The maximum horizontal distance which this projectile can travel is (A) 64 m

(B) 128m

(D) 255m

21. A large number of bullets are fired in all directions with the same speed v. What is the maximum area on the ground on which these bullets will spread?

(A)

(B)

(C)

(D)

22. A body is thrown vertically upwards, maximum height is reached, then it will have (A) zero velocity and zero acceleration. (B) zero velocity and finite acceleration. (C) finite velocity and zero acceleration. (D) finite velocity and finite acceleration.

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23. The velocity-time graphs of two objects make angles 30° and 60° with time axis, then the ratio of their acceleration is (A)

(B)

(D)

24. The relative velocity of two objects moving with same speed and in the same direction is (A) negative

(B) zero

(D) infinite

25. A jet airplane travelling at the speed of 500kmh-1 ejects the burnt gases at the speed of 1400kmh-1 relative to the jet airplane. The speed of burnt gases relative to stationary observer on the earth is (A) 2.8 kmh-1

(B) 190 kmh-1

(D) 900 kmh-1

26. Which of the following is NOT a projectile? (A) bullet fired from gun. (B) A shell fired from cannon. (C) A hammer thrown by athlete. (D) An aeroplane in flight. 27. A projectile projected with certain angle reaches ground with (A) double angle

(B) same angle

(D) angle between 90° and 180°

28. A projectile projected with certain velocity reaches ground with (magnitude) (A) zero velocity

(B) smaller velocity

(D) greater velocity

29. For uniformly accelerated motion, the slope of the v -t graph is (A) negative

(B) zero

(D) infinite

30. If the particle is at rest, then the x - t graph can be only (A) parallel to position – axis

(B) parallel to time – axis

(D) inclined with obtuse angle

31. The x -t graph for an object having uniformly accelerated motion is (A) straight line

(B) circle

(D) hyperbola

32. The slope of x -1 graph at any point gives (A) instantaneous velocity

(B) instantaneous acceleration

(D) momentum at that instant

33. The area under v -1 graph gives

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(A) uniform acceleration

(B) velocity

(D) force

34. Two balls A and B of same masses are thrown from the top of the building. A thrown upward with velocity v and B thrown downward with velocity v, then (A) Velocity of A is more than B at the ground (B) Velocity of B is more than A at the ground (C) Both A and B strike the ground with same velocity (D) None of these

â?&#x2013; Answers to Multiple choice questions 1.(D)

2.(D)

3. (B)

4. (B)

8. (B)

9. (A)

10. (A)

11. (B)

15. (B)

16. (B)

17. (D)

22. (B)

23. (C)

29. (C)

30. (B)

F.Y.J.C.

5. (C)

6. (A)

7. (C)

12. (D)

13. (C)

14. (A)

18. (D)

19. (C)

20. (D)

21. (B)

24. (B)

25. (D)

26. (D)

27. (B)

28. (C)

31. (C)

32. (A)

33. (C)

34. (C)

Projectile Motion