Home
Class 11
PHYSICS
A blcok A can slidke on a frictionless i...

A blcok A can slidke on a frictionless incline of angle `theta` and length l, kept inside an elevator going up with unifor velocity v. Find the time taken by the block to slide down the length of the incline if it is released from the top of the incline.

Text Solution

Verified by Experts

The correct Answer is:
A, B
The driving force on the block whch makes the body to move down the plane is,
`F=mg sin theta `
` :. Acceleration = g sin theta`
Initial velocity of block, u=0
S=l
`a= g sin theta `
Now, ` S= ut+1/2at^2`
`rarr l=0+1/2(g sin theta)t^2`
` rarr t^2 = (2l)/(g sin theta)`
` rarr Time taken, `t= (2l)/(g sin theta`.
Promotional Banner

Topper's Solved these Questions

  • NEWTON'S LAWS OF MOTION

    HC VERMA|Exercise Objective 2|9 Videos

  • LAWS OF THERMODYNAMICS

    HC VERMA|Exercise Short Answer|15 Videos

  • PHYSICS AND MATHEMATICS

    HC VERMA|Exercise Exercises|34 Videos

Similar Questions

Explore conceptually related problems

A block slides down from top of a smooth inclined plane of elevation ● fixed in an elevator going up with an acceleration a_(0) The base of incline hs length L Find the time taken by the block to reach the bottom .

An inclined plane of height h and length l have the angle of inclination theta . The time taken by a body to come from the top of the bottom of this inclined plane will be

A small block of mass m is kept on a rough inclined surface of inclination theta in an elevator.Th elevator goes up with a uniform velocity v and the block does not slide on the wedge.The work done by the force of friction on the block in time t as seen by the observer on the inclined plane will be

A frictionless inclined plane of length l having inclination theta is placed inside a lift which is accelerating downward with on acceleration a (ltg) . If a block is allowed to move down the inclined plane, from rest, then the time taken by the block to slide from top of the inclined plane to the bottom of the inclined plane is

A body is slipping from an inclined plane of height h and length l . If the angle of inclination is theta , the time taken by the body to come from the top to the bottom of this inclined plane is

A small block of mass m is kept on a rough inclined surface of inclination theta fixed in an elevator. The elevator goes up with a uniform velocity v and te block does not slide n te wedge. The work done by the force of friction on the block in time t will be

A block slides down a rough inclined plane of slope angle theta with a constnat velocity. It is then projected up the same plane with an intial velocity v the distance travelled by the block up the plane coming to rest is .

A small block of mass 1 kg is kept on a rough inclined wedge of inclination 45^@ fixed in an elevator. The elevator goes up with a uniform velocity v=2 m//s and the block done not slide on the wedge. Find the work done by the of friction on the block in 1s . (g=10 m//s^(2))

HC VERMA-NEWTON'S LAWS OF MOTION-Exercises
  1. Figure shwos a uniform rod of length 30 cm having a mass of 3.0 kg. Th...

    Text Solution

    |

  2. Consider the situation shown in figure. All the surfaces are frictions...

    Text Solution

    |

  3. A constant force F=m2g/s is applied on the block of mass m1 as shown i...

    Text Solution

    |

  4. In figure m1=5 kg, m2=2kg and F=1N. Find the acceleration of either bl...

    Text Solution

    |

  5. Let m1=1 kg, m2=2kg and m3=3kg is figure. Find the acceleration of m1,...

    Text Solution

    |

  6. In the previous problem, suppose m2=2.0kg and m3=3.0 kg. What should b...

    Text Solution

    |

  7. Calculate the tension in the string shown in figure. The pulley and th...

    Text Solution

    |

  8. Consider4 the situation shown in figure. Bothe the pulleys and the str...

    Text Solution

    |

  9. find the acceleration of the block of mass M in the situation shown in...

    Text Solution

    |

  10. Find the mass M of the hanging block in figure which will prevent the ...

    Text Solution

    |

  11. Find the acceleration of the blocks A and B in the three situations sh...

    Text Solution

    |

  12. Find the acceleration of the 500 g block in figure.

    Text Solution

    |

  13. A monkey a mass 15 kg is climbing on a rope with one end fixed to the ...

    Text Solution

    |

  14. A monkey is climbing on a rope that goes over a smooth light pulley an...

    Text Solution

    |

  15. equal acceleration. IF initially both were at rest, their separation w...

    Text Solution

    |

  16. The monkey B shown in figure is holding on to the tall of the monkey A...

    Text Solution

    |

  17. Figure shows a man of mass 60 kg standing on a light weighting machine...

    Text Solution

    |

  18. A blcok A can slidke on a frictionless incline of angle theta and leng...

    Text Solution

    |

  19. A car is speeding up on a horizontal road with anaccelerationa. Consid...

    Text Solution

    |

  20. a block is kept on the floor of an elevator at rest. The elevator star...

    Text Solution

    |