Home
Class 12
PHYSICS
The spring shown in figure is unstretche...

The spring shown in figure is unstretched when a man starts pulling on the cord. The mass of the block is `M`. If the man exerts a constant force `F`, find

(a) the amplitude and the time period of the motion of the block,
(b) the energy stored in the spring when the block passes through the equilibrium position and
(c) the kinetic energy of the block at this position.

Text Solution

Verified by Experts

The correct Answer is:
(a) `(F)/(k), 2pisqrt((M)/(k))`, (b) `(F^(2))/(2k)`, (c) `(F^(2))/(2k)`
Promotional Banner

Topper's Solved these Questions

  • SIMPLE HARMONIC MOTION

    RESONANCE ENGLISH|Exercise Exercise- 1, PART - II|36 Videos

  • SIMPLE HARMONIC MOTION

    RESONANCE ENGLISH|Exercise Exercise- 2, PART - I|26 Videos

  • SIMPLE HARMONIC MOTION

    RESONANCE ENGLISH|Exercise Board Level Exercise|24 Videos

  • SEMICONDUCTORS

    RESONANCE ENGLISH|Exercise Exercise 3|88 Videos

  • TEST PAPERS

    RESONANCE ENGLISH|Exercise PHYSICS|784 Videos

Similar Questions

Explore conceptually related problems

The springs shown in the figure are all unstretched in the beginning when a man starts pulling the block. The man exerts a constant force F on the blcok. Find the amplitude and the frequency of the motion of the block.

A spring mass systeam is shown in figure, spring is initially unstretched. A man starts pulling the block with constant force F . Find (a) The amplitude and the time period of motion of the block (b) The K.E. of the block at mean position (c) The energy stored in the spring when the block passes through the mean position

The springs shown in the figure are all upstretched in the beginning when a man starts pulling the block. The man exerts a constant force F on the block.

Find the elastic potential energy stored in each spring shown in figure, when the block is in equilibrium. Also find the time period of vertical oscillation of the block.

Find the time period of oscillation of block of mass m. Spring, and pulley are ideal. Spring constant is k.

A block of mass m at rest is acted upon by a force F for a time t. The kinetic energy of block after time t is

A block of known mass is suspended from a fixed support through a ligh spring. Can you find the time period of vertical oscillation only by measuring the extension of the spring when the block is in equilibrium?

A block of mass 5 kg executes simple harmonic motion under the restoring force of a spring. The amplitude and the time period of the motion are 0.1 m and 3.14 s respectively. Find the maximum force exerted by the spring on the block.

A block of mass 0.5 kg hanging from a vertical spring executes simple harmonic motion of amplitude 0.1 m and time period 0.314s. Find the maximum fore exerted by the spring on the blockl.

In figure, k = 100 N//m, M = 1kg and F = 10 N (a) Find the compression of the spring in the equilibrium position (b) A sharp blow by some external agent imparts a speed of 2 m//s to the block towards left. Find the sum of the potential energy of the spring and the kinetic energy of the block at this instant. (c) Find the time period of the resulting simple harmonic motion. (d) Find the amplitude. (e) Write the potential energy of the spring when the block is at the left estreme. (f) Write the potential energy of the spring when the block is at the right extreme. The answers of (b), (e) and (f) are different. Explain why this does not violate the principle of conservation of energy ?

RESONANCE ENGLISH-SIMPLE HARMONIC MOTION -Exercise- 1, PART - I
  1. A particle is executing SHM. Find the positions of the particle where ...

    Text Solution

    |

  2. A particle performing SHM with amplitude 10cm. At What distance from m...

    Text Solution

    |

  3. An object of mass 0.2 kg executes simple harmonic oscillation along th...

    Text Solution

    |

  4. A spring mass system has time period of 2 second. What should be the s...

    Text Solution

    |

  5. A body of mass 2 kg suspended through a vertical spring executes simpl...

    Text Solution

    |

  6. A vertical spring-mass system with lower end of spring is fixed, made ...

    Text Solution

    |

  7. The spring shown in figure is unstretched when a man starts pulling on...

    Text Solution

    |

  8. Three spring mass systems are shown in figure. Assuming gravity free s...

    Text Solution

    |

  9. Spring mass system is shown in figure. find the time period of vertica...

    Text Solution

    |

  10. Find the length of seconds pendulum at a place where g =4 pi^(2) m//s^...

    Text Solution

    |

  11. The angle made by the string of a simple pendulum with the vertical de...

    Text Solution

    |

  12. A pendulum clock giving correct time at a place where g=9.800 ms^-2 is...

    Text Solution

    |

  13. A pendulum is suspended in a lit and its period of oscillation is T(0)...

    Text Solution

    |

  14. Compound pendulum are made of A rod of length l suspended through a p...

    Text Solution

    |

  15. A uniform disc of mass m and radius r is suspended through a wire atta...

    Text Solution

    |

  16. A particle is subjected to two SHMs simultaneously X(1) = a(1) sinom...

    Text Solution

    |

  17. Three simple harmonic motion of equal amplitudes A and equal time peri...

    Text Solution

    |

  18. A particle simultaneously participates in two mutually perpendicular o...

    Text Solution

    |

  19. In forced oscillation of a particle the amplitude is maximum for a fre...

    Text Solution

    |

  20. For the damped oscillator shown in Fig, the mass of the block is 200 g...

    Text Solution

    |