| 1 |
If the displacement of a body executing S.H.M is plotted against time, then the curve is known as |
frequency of S.H.M
period of S.H.M
wave form
none of them
|
| 2 |
Which of the following does not exhibit S.H.M? |
a plucked violin string
a mass attached to a spring
a train shunting between two terminals
a simple pendulum
|
| 3 |
Which of the following is an example of a S.H.M? |
motion of a projectile
motion of a train along a circular path
motion of swing
electrons revolving sound the nucleus
|
| 4 |
When a body is performing S.H.M., its acceleration is |
inversely proportional to the displacement
directly proportional to the applied force
directly proportional to the amplitude
directly proportional to the displacement but in opposite direction
|
| 5 |
For a body executing S. H. M, its |
momentum remains constant
potential energy remains constant
kinetic energy remains constant
total energy remains constant
|
| 6 |
The maximum displacement of a body on either side of its equilibrium position is called |
frequency
amplitude
displacement
time period
|
| 7 |
The number of vibrating body at any instant from its equilibrium position is called |
displacement
frequency
amplitude
time period
|
| 8 |
The time required to complete on vibration is called |
frequency
total time
time period
velocity
|
| 9 |
One complete round trip of the body about its mean position is called |
displacement
vibration
a complete motion
an acceleration
|
| 10 |
The vibratory motion of a body whose magnitude of acceleration is directly proportional to the magnitude of its displacement and is always directed towards the equilibrium position is called |
rotatory motion
motion under gravity
angular motion
simple harmonic motion
|
| 11 |
The vibratory or oscillatory motion of a body is |
translatory motion
back and forth motion about its mean position
free all motion
circular motion
|
| 12 |
The force which opposes the applied force producing the displacement in the spring is called |
restoring force
periodic force
centripetal force
resistive force
|
| 13 |
The restoring force always directed towards the |
extreme position
mean position
both of them
none of them
|
| 14 |
When a body is pulled away from its rest or equilibrium position and then released, the body oscillates due to |
applied force
momentum
restoring force
none of them
|
| 15 |
Example of vibratory motion is |
mass suspended from a spring
a bob of simple pendulum
mass attached to a spring placed
all of them
|
| 16 |
When an oscillatory motion repeats itself, then this type of motion is called |
vibratory motion
constant motion
fixed motion
periodic motion
|
| 17 |
When a body moves to and fro motion, this type of motion is called |
translatory motion
circular motion
oscillatory motion
all of them
|
| 18 |
The internal pressure of the blood is |
less than the external atmospheric pressure
greater than the external atmospheric pressure
equal to the external atmosphericpressure
none of them
|
| 19 |
Under normal circumstances, the volume of blood is sufficient to keep the vessels |
flatted for all times
inflated for all times
inflated for small times
none of them
|
| 20 |
Blood vessels can be stretch like rubber, therefore they are |
rigid
hard
very thick
not rigid
|
| 21 |
A high concentration of red blood cells increases its viscosity from |
3 - 5 times that of mercury
5 - 8 times that of mercury
3 - 5 times that of water
5 - 8 times that of water
|
| 22 |
The density of blood is nearly equal to that of |
mercury
sodium
water
honey
|
| 23 |
Blood is an |
Compressible fluid
incompressible fluid
hard
none of them
|
| 24 |
A device used to measure the speed of liquid flow is known as |
barometer
speedometer
sphygmomanometer
venture-meter
|
| 25 |
If one of the pipes has a much smaller diameter than the other and are placed horizontally then form both sides of Bernoulli's equation, we can drop the term |
P
1/2 fv<sup>2</sup>
pgh
none of them
|
| 26 |
Where the streamlines are very far apart from each other, the pressure will be |
low
zero
high
all of them
|
| 27 |
Where the streamlines are very close to each other, the pressure will be |
low
zero
high
all of them
|
| 28 |
According to the Bernoulli's equation, where the speed of the fluid is high, the pressure will be |
low
zero
high
all of them
|
| 29 |
The velocity gained by the fluid in falling through the distance (h1 - h2) under the action of gravity is equal to the speed of the action of gravity is equal to the speed of the |
orifices
efflux
fluid
none of them
|
| 30 |
In deriving the Bernoulli's equation, we assume that the fluid is |
incompressible
no viscous
flows in a steady manner
all of them
|
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