Home
Class 11
PHYSICS
A block of mass 8 kg is released from th...

A block of mass 8 kg is released from the top of an inclined smooth surface as shown in figure. If spring constant of spring is 200 Nm^(-1) and block comes to rest after compressing spring by 1 m then find the distance travelled by block before it comes to rest

Text Solution

Verified by Experts

Consider d is the distance travelled by block along the plane and height it come in downward direction `h=dsin30^(@)`. Now, when block will comes to rest, the distance in its potential energy will store in spring
`:. mgh=(1)/(2)ky^(2) " "` (y is compression in spring )
`implies mg " d " sin30^(@)=(1)/(2)ky^(2)`
`implies 8xx10xx(d)/(2)=(1)/(2)xx200xx1^(2)`
`implies` 40 d=100
`implies` d=2.5 m
Promotional Banner

Topper's Solved these Questions

  • WORK, ENERGY AND POWER

    DC PANDEY ENGLISH|Exercise CHECK POINT 6.1|20 Videos

  • WORK, ENERGY AND POWER

    DC PANDEY ENGLISH|Exercise CHECK POINT 6.2|20 Videos

  • WORK, ENERGY & POWER

    DC PANDEY ENGLISH|Exercise Level 2 Comprehension Based|2 Videos

  • WORK, POWER AND ENERGY

    DC PANDEY ENGLISH|Exercise E Integer Type Questions|11 Videos

Similar Questions

Explore conceptually related problems

A block of mass 4 kg is released from the top of an inclined smooth surface as shown in figure If spring constant of spring is 100N//m and block comes to rest after compressing spring by 1 m, find the distance travelled by the block before it comes t o rest.

A block of mass sqrt2 kg is released from the top of an inclined smooth surface as shown in fighre. If spring constant of spring is 100 N/m and block comes to rest after compressing the spring by 1 m, then the distance travelled by block befor it comes to rest is

A block of mass sqrt2 kg is released from the top of an inclined smooth surface as shown in fighre. If spring constant of spring is 100 N/m and block comes to rest after compressing the spring by 1 m, then the distance travelled by block befor it comes to rest is

A block of mass m is released from a height h from the top of a smooth surface. There is an ideal spring of spring constant k at the bottom of the track. Find the maximum compression in the spring (Wedge is fixed)

A block of mass m is released on the top of a smooth inclined plane of length x and inclination theta as shown in figure. Horizontal surface is rough. If block comes to rest after moving a distabce d on the horizontal surface, then coefficient of friction between block and surface is :-

A block of mass m is relesed from rest from a height h onto a smooth surface of mass M fitted with an ideal spring of stiffness k . find the maximum compression in the spring.

A block of mass m is attached with a spring in vertical plane as shown in the figure. If initially spring is in its natural length and the block is released from rest, then maximum extension in the spring will be

If the force constant of spring is 50Nm^(-1) , find mass of the block, if it an rests in the given situation (g=10ms^(-2) ).

A spring-block system is resting on a frictionless floor as shown in the figure. The spring constant is 2.0Nm^(-1) and the mass of the block is 2.0 kg. Ignore the mass of the spring. Initially the spring is in an unstretched condition. Another block of mass 1.0 kg moving with a speed of 2.0ms^(-1) collides elastically with the first block. The collision is such that the 2.0 kg block does not hit the wall. The distance, in metres, between the two blocks when the spring returns to its unstretched position for the first time after the collision is

A body of mass 0.1 g moving with a velocity of 10 m/s hits a spring (fixed at the other end) of force constant 1000 N/m and comes to rest after compressing the spring. The compression of the spring is

DC PANDEY ENGLISH-WORK, ENERGY AND POWER-MEDICAL ENTRACES GALLERY
  1. A block of mass 8 kg is released from the top of an inclined smooth su...

    Text Solution

    |

  2. A body of mass 1 kg begins to move under the action of a time depende...

    Text Solution

    |

  3. A particle of mass 10 g moves along a circle of radius 6.4 cm with a c...

    Text Solution

    |

  4. A block of mass 10 kg, moving in x-direction with a constant speed of ...

    Text Solution

    |

  5. A particle of mass m is driven by a machine that delivers a constant p...

    Text Solution

    |

  6. A block of ,mass m =11.7 kg is to be pushed a distance of s=4.65 m. A...

    Text Solution

    |

  7. A force F=(10+0.50x) acts on a particle in the x direction, where F is...

    Text Solution

    |

  8. An elevator weighing 500 kg is to be lifted up at a constant velocity ...

    Text Solution

    |

  9. The distance of closest approach of an alpha-particle fired at nucleus...

    Text Solution

    |

  10. Two bodies of different masses are moving with same kinetic energy. Th...

    Text Solution

    |

  11. Two bodies of masses 1 kg and 2 kg moving with same velocities are sto...

    Text Solution

    |

  12. One moving electron when comes closer to other stationary electron, th...

    Text Solution

    |

  13. A body of mass m, accelerates uniformly from rest to V(1) in time t(1)...

    Text Solution

    |

  14. A uniform chain of length l is placed on a smooth horizontal table, su...

    Text Solution

    |

  15. The kinetic energy of a body of mass 4 kg and momentum 6 N-s will be

    Text Solution

    |

  16. A body of mass m=3.90 kg slides on a horizontal frictionless table wit...

    Text Solution

    |

  17. A string of length L and force constant k is stretched to obtain exten...

    Text Solution

    |

  18. A body is initially at rest. It undergoes one dimensional motion with ...

    Text Solution

    |

  19. If two person A and B take 2 s and 4 s, respectively to lift an object...

    Text Solution

    |

  20. If , a machine gun fires n bullets per second each with kinetic energy...

    Text Solution

    |

  21. A uniform force of (3hati+hatj) N acts on a particle of mass 2kg. Henc...

    Text Solution

    |