quiz-ch-3-motion-in-a-straight-line medium part-5

Welcome to your Part -5 Motion in a straight line medium

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A car runs at constant speed on a circular track of radius 100 m taking 62.8 s on each lap. What is the average speed and average velocity on each complete lap?

velocity 10m/s, speed 10 m/s

velocity zero, speed 10 m/s

velocity zero, speed zero

velocity 10 m/s, speed zero

Mark the correct statements :

The magnitude of the instantanteous velocity of a particle is equal to its instantanteous speed

The magnitude of average velocity in an interval is equal to its average speed in that interval.

It is possible to have a situation in which the speed of a particle is always zero but the average speed is not zero

It is possible to have a situation in which the speed of the particle is never zero but the average speed in an interval is zero.

A particle has velocity given by v = 20 + 0.1 t²then it has

uniform acceleration

uniform retardation

non uniform acceleration

zero acceleration

The displacement is given by x = 2t²+ t + 5, the acceleration at t = 5 sec will be

8 m/s²

12 m/s²

15 m/s²

4 m/s²

A particle is moving so that its displacement is given as s=t³-6t²+3t+4 Its velocity at the instant when its acceleration is zero will be

3 m/s

–12 m/s

42 m/s

–9 m/s

If velocity of a particle is given by V=10+2t²m/s. The average acceleration between 2 and 5 s is

2 m/s²

4 m/s²

12 m/s²

14 m/s²

If the displacement of a particle varies with time as √x=t+7 , the

velocity of the particle is inversely porportional to t

velocity of the particle is directly proportional to t

velocity of the particle is proportional to √t

the particle moves with a constant acceleration

The displacement [s] of a body is directly proportional to the square of the time [t] than the acceleration of the body is

increases

constant

decreases

zero

A truck travelling due north at 20 ms¯¹turns west and travels with same speed. What is the change in velocity ?

20√2 ms¯¹ south-west

40 ms¯¹ south west

20√2 ms¯¹ north west

40 ms¯¹ north west

If relation between distance and time is s = a + bt + ct², and initial velocity and acceleration :

b + 2 ct, 2 c

b, 2 c

2 c, b

b + 2 c, 2 c

A car starts from rest and has an acceleration a = t. A truck is moving with a uniform velocity of
6 m/s. At what distance will the car overtake the truck? (at t = 0 both start their motion in the same direction from the same position)

36 m

8 m

32 m

4 m

Two balls are dropped from the same point after an interval of 1 s. If acceleration due to gravity is 10 m/s², what will be the separation 3 seconds after the release of first ball?

5 m

10 m

25 m

20 m

If velocity varies with time as n = 4t, find the distance travelled by the body in the interval of 2 s to 4 s.

24 m

240 m

2.4 m

0.24 m

A particle moves along a straight line OX. At a time t (in seconds ) the distance x (in metres) of the particle from O is given by x = 40 + 12t – t³

How long would the particle travel before coming to rest ?

24 m

40 m

56 m

16 m

The position x of a particle with respect to time t along x-axis is given by x = 9t² – t³ where x is in metre and t in second. What will be the position of this particle when it achieves maximum speed along the + x direction?

32 m

54 m

81 m

24 m

The displacement of a body is given to be proportional to the cube of time passed. The magnitude of the acceleration of the body, is

Increasing with time

Decreasing with time

Constant but not zero

Zero

Velocity-time curve for a body projected vertically upwards is

Ellipse

Parabola

Hyperbola

Straight line

A particle is moving eastwards with a velocity of 5 ms¯¹. In 10 second the velocity changes to 5 ms¯¹ northwards. The average acceleration in this time is :

1/√2ms¯² towards north-west

1/2 ms¯² towards north

zero

1/2 ms¯² towards north-west.

The displacement of a particle, starting from rest (at t = 0) is given by

s = 6t² – t³

The time in seconds at which the particle will attain zero velocity again is

A particle is moving along x axis with constant acceleration. At t = 0 , the particle is at x = 3 m and dx/dt = + 4 m/s. The maximum value of x co-ordinate of the particle is observed 2 seconds later. Starting from t = 0 sec after what time particle reaches its initial position again?

4 sec.

6 sec.

8 sec

12 sec.

Which one of the following equations represent the motion of a body with finite constant non-zero In these equations y denotes the displacement of the body at time t and a,b and c are the constant of the motion

y=a/t+bt

y=at

y=at+bt²

y=at+bt²+ct³

A ball is thrown upward and reaches a height of 64 feet, its initial velocity should be (g = 32 ft/sec²)

64 ft/sec

72 ft/sec

32 ft/sec

4096 ft/sec

A body thrown up with a finite speed is caught back after 4 sec. The speed of the body with which it is thrown up is

10 m/sec

20 m/sec

30 m/sec

40 m/sec

A body is thrown upward and reaches its maximum height. At that position

its velocity is zero and its acceleration is also zero

its velocity is zero but its acceleration is maximum

its acceleration is minimum

its velocity is zero and its acceleration is the acceleration due to gravity

The initial velocity of a particle (at t = 0) is u and the acceleration f of particle at time t is given by
f = at. Where a is a constant which of the following relation for velocity v of particle after time t is true?

v=u+at²

v=u+at²/2

v=u+at

none of these

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