Home
Class 12
PHYSICS
A particle executes SHM. Then the graph ...

A particle executes SHM. Then the graph of velocity as a function of displacement is

A

circular

B

elliptical

C

parabolic

D

straight line

Text Solution

Verified by Experts

The correct Answer is:
B
Doubtnut Promotions Banner Mobile Dark
|

Topper's Solved these Questions

  • JEE MAIN 2021

    JEE MAINS PREVIOUS YEAR|Exercise (SECTION - B)|10 Videos
  • JEE MAIN 2021

    JEE MAINS PREVIOUS YEAR|Exercise PHYSICS (SECTION A)|60 Videos
  • JEE MAIN 2021

    JEE MAINS PREVIOUS YEAR|Exercise PHYSICS (SECTION-B)|10 Videos
  • JEE MAIN

    JEE MAINS PREVIOUS YEAR|Exercise All Questions|473 Videos
  • JEE MAIN 2022

    JEE MAINS PREVIOUS YEAR|Exercise Question|492 Videos

Similar Questions

Explore conceptually related problems

A particle executes S.H.M. of amplitude A . At what positions of its displacement (x), will its velocity be zero and maximum?

A particle is executing S.H.M. Then the graph of acceleration as a function of displacement is :

Knowledge Check

  • A particle executes S.H.M., the graph of velocity as a function of displacement is :-

    A
    A circle
    B
    A parabola
    C
    An ellipse
    D
    A helix
  • A particle is executing SHM. Then the graph of velocity as a function of displacement is

    A
    straight line
    B
    circle
    C
    ellipse
    D
    hyperbola
  • A particle is executing SHM. Then the graph of acceleration as a function of displacement is

    A
    straight line
    B
    circle
    C
    ellipse
    D
    hyperbola
  • Similar Questions

    Explore conceptually related problems

    A particle executes simple harmonic motion. Then the graph of veloctiy as a function of its displacement is

    A particle executing SHM. The phase difference between velocity and displacement is

    A particle executing SHM. The phase difference between acceleration and displacement is

    Assertion: In S.H.M., the velocity and displacement of the particle are in the same phase. Reason: Velocity is the ratio of displacement to the time taken.

    Assertion: In S.H.M., the velocity and displacement of the particle are in the same phase. Reason: Velocity is the ratio of displacement to the time taken.