| 1 |
The amplitude of a vibrating body placed in a resistive medium. |
Increases exponentially with time
Decreases exponentially with time
Remains constant with time
Cannot be observed
|
| 2 |
A body of mass 1 kg hanging with a spring of spring constant 60 N m-1 is rotation in a horizontal circle The values of angular frequency will be. |
80 .94 Hz
89. 4 Hz
98. 4 Hz
108 . 6 Hz
|
| 3 |
A body attached to a spring is pulled to a distance of 20 cm If the value of spring constant is 48 N m-1, the amount of force applied will be. |
4.8 N
9.6 N
96 N
192 N
|
| 4 |
A force of 20 N is applied on an elastic spring if the extension produced in the springs to cm, the value of spring constant. |
2 Nm-1
20 N m-1
200 N m-1
2,000 N m-1
|
| 5 |
Simple harmonic motion may be assumed as a projection of uniform circular motion along a |
Diagonal
Hypotenuse
Radius
Diameter
|
| 6 |
Angular frequency time period and frequency in SHM do not depend upon. |
Mass
Force constant
Amplitude
All of these
|
| 7 |
Which of the following is conserved in SHM |
K.E.
P.E
Total energy
Electrical energy
|
| 8 |
In simple harmonic motion it is found that the total energy of a system. |
Is independent of the amplitude
Depends on the amplitude squared
Is independent of the mass
All of these
|
| 9 |
An example of forced oscillation is |
the pendulum of a clock
The wind screen wiper
A plucked sonometer wire
A sonometer wire excited by a tuning fork
|
| 10 |
If there are no frictional effects, the mechanical energy of a system executing simple harmonic motion. |
Changes with time
Is variable
Is constant
Is not conserved
|
| 11 |
In microwave ovens, heating is produced by the phenomena of |
Reflection
Refraction
Damped oscillations
Resonance
|
| 12 |
Simple harmonic motion is a type of |
rectilinear motion
Circular motion
Rotational motion
Zig Zag motion
|
| 13 |
Time period of a simple pendulum depends upon. |
Thickness of the thread
Mass of the pendulum
Length of the pendulum
Amplitude of vibration
|
| 14 |
An example of simple harmonic motion is |
Fast moving cricket ball
Motion of bicycle
Motion of a bee
Motion of simple pendulum
|
| 15 |
Periodic motion is a motion. |
Under the influence of an elastic restoring force
That repeats it self in equal intervals of time
Back and forth over the same path
With constant acceleration
|
| 16 |
The weight of a man in an elevator moving down with an accelerating of 9.8 m s-2 will be come |
Half
Zero
9.8 N
Double
|
| 17 |
A man of mass 100 kg is standing in an elevator. The net force acting on the man reads its weight when the elevator is going up with acceleration 4 m s-2 would be. |
100 N
590 N
490 N
980 N
|
| 18 |
A body of mass 2 kg is suspended in a elevator by means of a spring The balance reads its weight when the elevator moves up with an acceleration of 5 m s-2 as. |
9.8 N
29. 6 N
26.5 N
<div>30.5 N</div>
|
| 19 |
If an elevator is moving vertically up with an acceleration 'a' the force exerted on the floor by a passing of mass 'm' is |
Ma
Mg
M(g +a)
M (g-a)
|
| 20 |
Which statement for geostationary orbit is false. |
A geostationary orbit must be directly above the equator
All satellites in a geostationary orbit must have the same mass
The period of a geostationary orbit must be 24 hours
There is only one possible radius for geostationary orbit
|
| 21 |
Which of the following is a unit of electric field strength. |
c m-1
v m-2
N C-1
N V-1
|
| 22 |
When a force of 16 N acts on a mass of 4 kg for a time of 4 s. What is the rate of change of momentum. |
1 kg m s-2
4 kg m s-2
8 kg m s-2
16 kg m s-2
|
| 23 |
A force of 50 N acts on a body for 10 s the change in momentum will be. |
5 N s
200 Ns
500 Ns
800 N s
|
| 24 |
A stone is whirled in a vertical circle at the and of a string when the stone is at the highest position, tension in the string is |
Maximum
Zero
Equal to weight of the stone
Less than weight of the stone.
|
| 25 |
The value of 'g' is maximum |
Above the earth's surface
Below the earth's surface
At the earth's surface
At the centre of earth
|
| 26 |
Acceleration due to gravity is not affected by which one of the following |
Latitude
Attitude
Longitude
Depth
|
| 27 |
The ratio of inertial mass to gravitational mass is. |
1
0.5
2
3
|
| 28 |
The acceleration due to gravity |
Has the same value everywhere in space
Has the same value every where on the earth
varix with altitude on the earth
Is great her on the moon owing to its smaller diameter
|
| 29 |
Which of the following statements concerning G and g is true. |
g is scalar white g is a vector
g is inversely proportional to the mass of the planet
g is independent of the mass of the planet
both G and g have the same units
|
| 30 |
The gravitational force between two bodies does not depends upon. |
The product of their masses
Their separation
The sum of their masses
The constant of gravitation
|
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