Home
Class 11
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 the amplitude and the time period of the motion of the block.

Text Solution

Verified by Experts

`F/k 2pi sqrt(M/k)`
Doubtnut Promotions Banner Mobile Dark
|

Topper's Solved these Questions

  • OSCILLATION

    AAKASH SERIES|Exercise NUMERICAL EXERCISE (LEVEL-2)|37 Videos
  • NEWTONS LAWS OF MOTION

    AAKASH SERIES|Exercise ADDITIONAL PRACTICE EXERCISE PRACTICE SHEET (ADVANECED) (Matrix Matching Type Questions)|1 Videos
  • OSCILLATIONS

    AAKASH SERIES|Exercise PRACTICE EXERCISE - SPRINGS|16 Videos

Similar Questions

Explore conceptually related problems

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 the kinetic energy of the block at this position.

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 the energy stored in the spring when the block passes through the equilibrium position .

Knowledge Check

  • In the previous problem, if unstretched length of the spring is I, find the distance of the mean position of SHM from the block of mass m_1

    A
    `(m_1l)/((m_1 + m_2))`
    B
    `(m_2l)/((m_1 + m_2))`
    C
    `((m_1 - m_2))/((m_1 + m_2))l`
    D
    `((m_2 - m_1))/((m_1 + m_2))l`
  • Similar Questions

    Explore conceptually related problems

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

    The string , the spring and the pulley shown in the figure are light . Find the time period of the mass m

    Two blocks of equal mass m are connected by an unstretched spring and the system is kept at rest on a frictionless horizontal surface. A constant force F is applied on one of the blocks pulling it away from the other as shown in figure, (a) Find the displacement of the centre of mass at time t. (b) If the extension of the spring is x0 at time t, find the displacement of the two blocks at this instant:

    The block of mass m_1 shown in figure is fastened to the spring and the block of mass m_2 is placed against it. (a) Find the compression of the spring in the equilibrium position. (b) The blocks are pushed a further distance (2/k) (m_1 + m_2) g sin theta against the spring and released. Find the position where the two blocks seperate (c) What is the common speed of blocks at the time of separation ?

    A block of mass 25 kg is raised by a 50 kg man in two different ways as shown in Fig. What is the action on the floor by the man in the two cases ? If the floor yields to a normal force of 700 N, which mode should the man adopt to lift the block without the floor yielding ?

    A block of mass 25 kg is raised by a 50 kg man in two different ways as shown in Fig . What is the action on the floor by the man in the two cases ? If the floor yields to a normal force of 700 N , which mode should the man adopt to lift the block without the floor yielding ?

    For the system shown in the figure, mass of each block is m. Spring constant of the spring is k. There is no friction between the block and the table. Initially the spring is vertical and unstretched when the system is released to move. Find the velocity of the block on the table at the instant it breaks off the surface. (Take m = 0.32 kg, k = 40 Nm^(-1), l_(0) = 40 cm and g = 10 ms^(-2) )