UPSC Exam  >  UPSC Tests  >  Famous Books for UPSC Exam (Summary & Tests)  >  Test: Simple Harmonic Motion - UPSC MCQ

Test: Simple Harmonic Motion - UPSC MCQ


Test Description

20 Questions MCQ Test Famous Books for UPSC Exam (Summary & Tests) - Test: Simple Harmonic Motion

Test: Simple Harmonic Motion for UPSC 2024 is part of Famous Books for UPSC Exam (Summary & Tests) preparation. The Test: Simple Harmonic Motion questions and answers have been prepared according to the UPSC exam syllabus.The Test: Simple Harmonic Motion MCQs are made for UPSC 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Simple Harmonic Motion below.
Solutions of Test: Simple Harmonic Motion questions in English are available as part of our Famous Books for UPSC Exam (Summary & Tests) for UPSC & Test: Simple Harmonic Motion solutions in Hindi for Famous Books for UPSC Exam (Summary & Tests) course. Download more important topics, notes, lectures and mock test series for UPSC Exam by signing up for free. Attempt Test: Simple Harmonic Motion | 20 questions in 25 minutes | Mock test for UPSC preparation | Free important questions MCQ to study Famous Books for UPSC Exam (Summary & Tests) for UPSC Exam | Download free PDF with solutions
Test: Simple Harmonic Motion - Question 1

What is Simple Harmonic Motion (SHM)?

Detailed Solution for Test: Simple Harmonic Motion - Question 1

Simple Harmonic Motion (SHM) refers to the back and forth motion of an object along a line about a stable equilibrium position.

Test: Simple Harmonic Motion - Question 2

Which of the following quantities is not involved in the description of SHM?

Detailed Solution for Test: Simple Harmonic Motion - Question 2

In simple harmonic motion (SHM), amplitude is not involved in the description of the period and frequency. 

The period and frequency of SHM are independent of amplitude and the initial phase of the motion. the period is determined by the mass and the restoring force. The period is the time it takes for one complete cycle of the motion.

1 Crore+ students have signed up on EduRev. Have you? Download the App
Test: Simple Harmonic Motion - Question 3

In SHM, the restoring force is directly proportional to:

Detailed Solution for Test: Simple Harmonic Motion - Question 3

The restoring force in SHM is directly proportional to the displacement from the equilibrium position.

Test: Simple Harmonic Motion - Question 4

The time period of a simple pendulum depends on:

Detailed Solution for Test: Simple Harmonic Motion - Question 4

The time period of a simple pendulum depends on the length of the pendulum and the acceleration due to gravity.

Test: Simple Harmonic Motion - Question 5

What is the relationship between the frequency and the time period of SHM?

Detailed Solution for Test: Simple Harmonic Motion - Question 5

In simple harmonic motion (SHM), the frequency and time period are inversely proportional to each other:

  • Frequency: The number of oscillations per unit time, typically measured in hertz (Hz)
  • Time period: The time it takes for one oscillation
Test: Simple Harmonic Motion - Question 6

When does an object executing SHM experience maximum potential energy?

Detailed Solution for Test: Simple Harmonic Motion - Question 6

 An object executing SHM experiences maximum potential energy at the extreme points of its motion.

Test: Simple Harmonic Motion - Question 7

The maximum displacement of an object from its mean position in SHM is called:

Detailed Solution for Test: Simple Harmonic Motion - Question 7

The maximum displacement of an object from its mean position in SHM is called the amplitude.

Test: Simple Harmonic Motion - Question 8

Which of the following quantities remains constant during SHM?

Detailed Solution for Test: Simple Harmonic Motion - Question 8

Total mechanical energy remains constant during Simple Harmonic Motion (SHM).

Test: Simple Harmonic Motion - Question 9

The restoring force in SHM is always directed towards:

Detailed Solution for Test: Simple Harmonic Motion - Question 9

The restoring force in SHM is always directed towards the mean position or equilibrium position.

Test: Simple Harmonic Motion - Question 10

The motion of a mass-spring system is an example of:

Detailed Solution for Test: Simple Harmonic Motion - Question 10

The motion of a mass-spring system is an example of simple harmonic motion.

Test: Simple Harmonic Motion - Question 11

Which of the following graphs represents the displacement-time relationship in SHM?

Detailed Solution for Test: Simple Harmonic Motion - Question 11

The displacement-time relationship in SHM is represented by a sine wave graph.

Test: Simple Harmonic Motion - Question 12

The force constant of a spring is a measure of its:

Detailed Solution for Test: Simple Harmonic Motion - Question 12

The force constant of a spring is a measure of its elasticity.

Test: Simple Harmonic Motion - Question 13

What is the phase difference between the displacement and velocity of an object in SHM?

Detailed Solution for Test: Simple Harmonic Motion - Question 13

In SHM, the phase difference between the displacement and velocity is 90 degrees.

Test: Simple Harmonic Motion - Question 14

In SHM, the acceleration is maximum when the displacement is:

Detailed Solution for Test: Simple Harmonic Motion - Question 14

Acceleration is directly proportional to displacement, but with a negative direction. When an object is at its maximum displacement, the force is also maximum, which results in maximum acceleration.

Test: Simple Harmonic Motion - Question 15

The motion of a simple pendulum is approximately SHM when:

Detailed Solution for Test: Simple Harmonic Motion - Question 15

The motion of a simple pendulum is approximately SHM when the angle of oscillation is small.

Test: Simple Harmonic Motion - Question 16

The time period of an object executing SHM is 2 seconds. What is its frequency?

Detailed Solution for Test: Simple Harmonic Motion - Question 16

Frequency = 1 / Time period = 1 / 2 seconds = 0.5 Hz.

Test: Simple Harmonic Motion - Question 17

The ratio of maximum acceleration to maximum velocity in SHM is equal to:

Detailed Solution for Test: Simple Harmonic Motion - Question 17

To find the ratio of maximum acceleration to maximum velocity of a particle performing Simple Harmonic Motion (S.H.M.), we can follow these steps:

Step 1: Understand the equations of S.H.M.
The displacement y of a particle in S.H.M. can be expressed as:
y=Asin(ωt)
where:
- A is the amplitude,
- ω is the angular frequency,
- t is time.

Step 2: Find the maximum velocity.
The velocity v of the particle is the derivative of displacement with respect to time:
v=dy/dt=d / dt(Asin(ωt))=Aωcos(ωt)
The maximum velocity vmax occurs when cos(ωt)=1:
vmax=Aω

Step 3: Find the maximum acceleration.
The acceleration a is the derivative of velocity with respect to time:
a=dv/dt=d/dt(Aωcos(ωt))=−Aω2sin(ωt)
The maximum acceleration amax occurs when sin(ωt)=1:
amax=Aω2

Step 4: Calculate the ratio of maximum acceleration to maximum velocity.
Now, we can find the ratio of maximum acceleration to maximum velocity:

Conclusion:
Thus, the ratio of maximum acceleration to maximum velocity of a particle performing S.H.M. is equal to ω.

Test: Simple Harmonic Motion - Question 18

The angular frequency of an oscillating system is given by:

Detailed Solution for Test: Simple Harmonic Motion - Question 18

The angular frequency of an oscillating system is given by 2π times the square root of the force constant divided by the mass.

Test: Simple Harmonic Motion - Question 19

Hooke's Law is applicable to:

Detailed Solution for Test: Simple Harmonic Motion - Question 19

Hooke's law is applicable only for solids (not for liquids or gases). Hooke's law is not a universal law because it works up to the proportionality limit only.

Test: Simple Harmonic Motion - Question 20

The quality factor (Q-factor) of an oscillating system is a measure of its:

Detailed Solution for Test: Simple Harmonic Motion - Question 20

The quality factor (Q-factor) of an oscillating system is a measure of its damping.

727 videos|1212 docs|628 tests
Information about Test: Simple Harmonic Motion Page
In this test you can find the Exam questions for Test: Simple Harmonic Motion solved & explained in the simplest way possible. Besides giving Questions and answers for Test: Simple Harmonic Motion, EduRev gives you an ample number of Online tests for practice

Top Courses for UPSC

Download as PDF

Top Courses for UPSC