| 1 |
In an elastic collision |
K.E. is conserved
Both K.E. and momentum are conserved
K.E. is not conserved
Only momentum is conserved
|
| 2 |
The moment of linear momentum is called. |
Torque
Couple
Impulse
Angular momentum
|
| 3 |
Impulse is equal to. |
F x t/2
\F x t /4
F x t
F x t /m
|
| 4 |
In an ideal case, when no K.E. is lost the collision is. |
Perfectly elastic
Perfectly inelastic
May or may not be elastic
May or may not be inelastic
|
| 5 |
Temperature changes when two balls collide which one of the following is conserved. |
Angular momentum
linear momentum
Velocity
Kinetic energy
|
| 6 |
If the rate of change of momentum w.r.t Time is zero then |
Momentum is a function of time
Momentums is not conserves
Momentum is constant
The impulse is into he same direction as the momentum
|
| 7 |
In a projectile motion, the horizontal range depends upon. |
Initial velocity
Velocity at the highest position
angel of projection
Vertical component of velocity
|
| 8 |
When a projectile reaches the highest point the vertical component of velocity becoems. |
Small
Vi cos thetha
Zero
Maximum
|
| 9 |
During the projectile motion, the horizontal component of velocity. |
Changes with time
Becomes zero
Does not change but remains constant
Increases with time
|
| 10 |
If the K.E. of a body becomes 4 times of its initial value, the new momentum will be |
half
Same
Double
4 times
|
| 11 |
When velocity of the body is doubled, which one is doubled too. |
K.E.
P.E
Momentum
Acceleration
|
| 12 |
A shell explodes and many pieces fly off in different directions, which of the following is conserved. |
Momentum
K.E.
Momentum and K.E
Neither momentum nor K.E.
|
| 13 |
The velocity of an object when projected from the earth in order to escape the earth's gravitational field is called the. |
<div>Terminal velocity</div>
Average velocity
Instant aeneous velocity
Escape velocity
|
| 14 |
Two bullets a and b have masses 1 kg and 12 kg respectively. |
K.E. of B will be twice that of A
K.E. of A will be twice that of B
Both have same K.E.
K.E. of A will be half that of B
|
| 15 |
If two different masses have same momentum then the lighter one has more. |
K.E. and velocity
Velocity only
Both K.E. and P.E.
Only P.E
|
| 16 |
The horizontal range is equal for the angles. |
30 <sup>o</sup> and 45 <sup>o</sup>
30 <sup>o </sup>and 60 <sup>o</sup>
45 <sup>o</sup> and 90 <sup>o</sup>
60 <sup>o </sup>and 75 <sup>o</sup>
|
| 17 |
The equation of parabola is. |
y= bx - ax2
x = by - ay2
y = ax + bx2
x = a -by2
|
| 18 |
A ball is thrown straight up when the ball reaches the highest point. |
Both is velocity and acceleration are zero
In velocity os zero but acceleration is not zero.
It acceleration is zero but velocity is not zero.
Neither velocity nor acceleration is zero.
|
| 19 |
In projectile motion, the body has |
One component of velocity
Two components of velocity
Three components of velocity
No component of velocity
|
| 20 |
For maximum range angle of projection of the projectile should be |
45 <sup>o</sup>
90<sup> o</sup>
120 <sup>o</sup>
180 <sup>o</sup>
|
| 21 |
The path of a projectile is a |
Straight line
Circle
Ellipse
Parabola
|
| 22 |
The maximum height reached by a projectile with a velocity of 14 m s-1 at an angle of 30 owith the horizontal is. |
1.5 m
2.5 m
1 m
2 m
|
| 23 |
The path of projectile is maximum at |
Point of lauch
Highest point
Point of landing
Both a and c
|
| 24 |
If the presence of air friction, the path of a projectile appears as. |
Straight line
Parabola
Hyperbola
zig zag
|
| 25 |
The horizontal distance of a projectile from the point of launch to the point of impacts is called. |
Height of projectile
Range of projectile
Path of projectile
Angle of projectile
|
| 26 |
The magnitude of the instantaneous velocity is called the. |
<sub>Displacement</sub>
Speed
Acceleration
Length
|
| 27 |
If the average velocity of an object is zero in some time internal the displacement of the object for that intercanal will be. |
Infinite
zero
Increase
Decreasing
|
| 28 |
A negative acceleration does not necessaryimply. |
Decreasing speed
An increasing distance
An increasing speed
A decreasing distance
|
| 29 |
If two bodes are under a collision that is not perfectly elastic then. |
K.E. is conserved but momentum is not
Momentum is conserved but K.E. is not
Neither K.E. nor momentum is conserved
Both K.E. and momentum are conserved
|
| 30 |
A body is termed as perfectly elastic if. |
It can move freely
Its surface is perfectly somooth
It is not affected by an external force
It recovers the original shape when the deforming force is remover
|
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