Home
Class 11
PHYSICS
A block A of mass m connected with a spr...

A block A of mass m connected with a spring of force constant k is executing SHM.The displacement time equation of the block is x=`x_(0) = a sinomegat`. An indentical block B moving towards negative x -axis with velocity `v_(0)` collides elastically with block A at time t=0. Then

A

displacement time equation of A after collision will be `x=x_(0) - v_(0)sqrt(m/k)sinomegat`

B

displacement time equation of A after collision will be `x=x_(0)+v_(0)sqrt(m/k)sinomegat`

C

Velocity of b just after collision will be a `omega` towards positive x-direction.

D

velocity of B just after collision will be `v_(0)` towards positive x-direction.

Text Solution

Verified by Experts

The correct Answer is:
A, C, D
Promotional Banner

Topper's Solved these Questions

  • SIMPLE HARMONIC MOTION

    DC PANDEY|Exercise Comprehension types|18 Videos

  • SIMPLE HARMONIC MOTION

    DC PANDEY|Exercise Matrix matching type questions|13 Videos

  • SIMPLE HARMONIC MOTION

    DC PANDEY|Exercise JEE Advanced|34 Videos

  • SEMICONDUCTORS AND ELECTRONIC DEVICES

    DC PANDEY|Exercise More than One Option is Correct|3 Videos

  • SOLVD PAPERS 2017 NEET, AIIMS & JIPMER

    DC PANDEY|Exercise Solved paper 2018(JIPMER)|38 Videos

Similar Questions

Explore conceptually related problems

A block is suspended by an ideal spring of force constant force F and if maximum displacement of block from its initial mean position of rest is x_(0) then

A block of mass m connected to a spring of stiffness k is placed on horizontal smooth surface. When block is at x=0 , spring is in natural length. The block is also subjected to a force F=(k|x|)/(@) then

A block of mass M is connected to a spring of force constant k and is placed on a smopth horizontal surface. The block is displaced and compressed the spring by ''A''. The block is left free to move form this position, when the block is at distance A//2 form mean position to collides elastically with the identical block. tme to be taken by block to move from exterme position to mean position is....

A block of mass M connected to an ideal spring of force constant k, is placed on a smooth surface. The block is pushed to the left so as to compress the spring by a length A and then it is released. The block hits an elastic wall at a distance (3A)/(2) from its point of release. Assume the collision to be instantaneous. (a) Calculate the time required by the block to complete one oscillation (b) Draw the velocity - time graph for one oscillation of the block. (c) Find the value of k for which average force experienced by the wall due to repeated hitting of the block is F_(0) .

A block of mass m is connected to another .block of mass M by a massless spring of spring constant k. A constant force f starts action as shown in figure, then:

A block of mass 0.18 kg is attached to a spring of force constant 2 N//m The coefficient of friction between the block and the force is 0.1 insitially its block is at rest and the block as spring is an streched , As impalse is given to the block as shown in the figure . The block sides a distance of 0.06 in and comes to the first time . The initial velocity of the for blocks is mis V = N 10 then N is .

A block of mass 1kg is connected with a massless spring of force constant 100 N//m . At t = 0 , a constant force F = 10N is applied on the block. The spring is in its netural length at t = 0 . The speed of particel at x = 6cm form mean position is

Blocks A&B of mass m each are connected with spring of constant k both blocks lie on frictionless ground and are imparted horizontal velocity v as shown when spring is unstretched find the maximum stretch of spring.

DC PANDEY-SIMPLE HARMONIC MOTION-More than one option is correct
  1. A particle stars SHM at time t=0. Its amplitude is A and angular frequ...

    Text Solution

    |

  2. The speed v of a particle moving along a straight line. When it is at ...

    Text Solution

    |

  3. A block A of mass m connected with a spring of force constant k is exe...

    Text Solution

    |

  4. A particle moves along the x-axis according to the equation x=4+3sin(2...

    Text Solution

    |

  5. In simple harmonic motion

    Text Solution

    |

  6. A block of mass m is attached to a massless spring of force constant k...

    Text Solution

    |

  7. A particle is executing SHM on a straight line. A and B are two points...

    Text Solution

    |

  8. Two particles undergo SHM along the same line with the same time perio...

    Text Solution

    |

  9. A particle of mass m is moving in a potential well, for which the pote...

    Text Solution

    |

  10. In a horizontal spring-block system force constant of spring is k = 16...

    Text Solution

    |

  11. Two small particles P and Q each of mass m are fixed along x-axis at p...

    Text Solution

    |

  12. x-tequation of a particle moving along x-axis is given as x=A+A(1-co...

    Text Solution

    |

  13. In simple harmonic motion of a particle, maximum kinetic energy is 40 ...

    Text Solution

    |

  14. Two particles are in SHM with same amplitude A and same regualr freque...

    Text Solution

    |

  15. Time period of spring-block system on surface of earth is T(1) and tha...

    Text Solution

    |

  16. A linear harmonic oscillator of force constant 2 xx 10^6 N//m and ampl...

    Text Solution

    |

  17. Three simple harmonic motions in the same direction having the same am...

    Text Solution

    |

  18. If y, v and a represent displacement velocity and acceleration at any ...

    Text Solution

    |

  19. The time period of a particle in simple harmonic motion is T. Assume p...

    Text Solution

    |

  20. The figure shows a graph between velocity and displacement (from mean ...

    Text Solution

    |