Home
Class 12
PHYSICS
A block whose mass is 2 kg is fastened o...

A block whose mass is 2 kg is fastened on a spring whose spring constant is 100 `Nm^(-1)` . It is pulled to a distance of 0.1 m from over a frictionless surface and is released at t=0. Calculate the kinetic eneryg of the block when it is 0.05 m away from its mean position.

Text Solution

Verified by Experts

The block executes SHM,its angular frequency.
`omega =sqrt((k)/(m)) = sqrt((100Nm^(-1))/(2kg))= 7.07 rad s^(-1)`
Its displacement at any time t is
`x(t)= acos omegat`
`= 0.1 cos ( 7.07t)`
When the particle is 0.05 m away from the mean position , `0.05 = 0.1 cos ( 7.07t )`
or `cos( 7.07t) = 0.5`
or `sin(7.07 t) = (sqrt(3)) (9 2) = 0.866`
Velocity of the block at `x= 0.05 m` is
`v= A omega sin omegat`
`= 0.1 xx 7.07 xx 0.866`
`= 0.61 ms^(-1)`
Hence, `K.E.= (1)/(2) mv^(2)`
`= (1)/(2) xx 2(0.61)^(2)`
`=0.37 J`
Promotional Banner

Topper's Solved these Questions

  • OSCILLATIONS

    AAKASH INSTITUTE|Exercise Exercise|20 Videos

  • OSCILLATIONS

    AAKASH INSTITUTE|Exercise Assignment (Section - A) (OBJECTIVE TYPE QUESTIONS)|60 Videos

  • OSCILLATIONS

    AAKASH INSTITUTE|Exercise ASSIGNMENT ( SECTION-J )|8 Videos

  • NUCLEI

    AAKASH INSTITUTE|Exercise ASSIGNMENT (SECTION-D)|10 Videos

  • PHYSICAL WORLD

    AAKASH INSTITUTE|Exercise ASSIGNMENT (Section-B)|5 Videos

Similar Questions

Explore conceptually related problems

A block whose mass is 1 kg is fastened to a spring. The spring has a spring constant of 100N/m. the block is pulled to a distance x=10 cm from its equilibrium position at x=0 on a frictionless surface from rest at t=0. the kinetic energy and potential energy of the block when it is 5 cm away from the mean position is

A block whose mass is 1 kg is fastened to a spring.The spring has a spring constant 50Nm^(-1) . The block is pulled to a distance x=10cm from its equilibrium position at x=0 on a frictionless surface at t=0 . Calculate the kinetic, potential and total energies of the blocak when it is 5cm away from the mean position.

A block whose mass m is 680g is fastened to a spring whose spring constant k is 65N/m. The block is pulled a distance x=11cm from its equilibrium position at x=0 on a frictionless surface and released from rest at t= 0. What is the amplitude of the oscillation?

A block whose mass m is 680g is fastened to a spring whose spring constant k is 65N/m. The block is pulled a distance x=11cm from its equilibrium position at x=0 on a frictionless surface and released from rest at t= 0. What is the phase constant phi for the motion?

A block of mass one kg is fastened to a spring with a spring constant 50Nm^(-1) . The block is pulled to a distance x=10cm from its equilibrium position at x=0 on a frictionless surface from rest at t=0. Write the expression for its x(t) and v(t).

A block whose mass m is 680g is fastened to a spring whose spring constant k is 65N/m. The block is pulled a distance x=11cm from its equilibrium position at x=0 on a frictionless surface and released from rest at t= 0. What is the maximum speed v_(m) of the oscillating block, and where is the block when it has this speed?

A block whose mass m is 680g is fastened to a spring whose spring constant k is 65N/m. The block is pulled a distance x=11cm from its equilibrium position at x=0 on a frictionless surface and released from rest at t= 0. What is the displacement function x(t) for the spring block system?

A block whose mass m is 680g is fastened to a spring whose spring constant k is 65N/m. The block is pulled a distance x=11cm from its equilibrium position at x=0 on a frictionless surface and released from rest at t= 0. What is the magnitude a_(m) of the maximum acceleration of the block?

A block whose mass m is 680g is fastened to a spring whose spring constant k is 65N/m. The block is pulled a distance x=11cm from its equilibrium position at x=0 on a frictionless surface and released from rest at t= 0. What are the angular frequency, the frequency, and the period of the resulting motion?

Consider a block of mass 6 kg is attached to a spring having constant 16 Nm^(-1) . If the block is at rest initially and then stretched by a constant force of 20 N on frictionless surface as shown in figure . Caclculate the speed of the block when it has moved through a distance of 0.2 m from its initial position . d

AAKASH INSTITUTE-OSCILLATIONS-EXAMPLE
  1. A nurse in a hospital , noted for a patient that heart was beating 75 ...

    Text Solution

    |

  2. Which of the following functions of time represented (a) periodic an...

    Text Solution

    |

  3. Categorise the following function of time : sin omega t + sin 3 omega ...

    Text Solution

    |

  4. Categories the following function of time 3 sin ( 2 omegat - (pi)/( 4)...

    Text Solution

    |

  5. Figure depicts two circular motions. The radius of the circle, the per...

    Text Solution

    |

  6. In the figure, dots and arrows show the position and the velocity of a...

    Text Solution

    |

  7. Plot the corresponding reference circle for given SHM, indicate the in...

    Text Solution

    |

  8. Find the time taken by the paritcle in going from x=0 to x= (A)/(2) wh...

    Text Solution

    |

  9. A particle executes SHM with a time period of 2s and amplitude 10 cm ....

    Text Solution

    |

  10. A particle of mass 2 kg executing SHM has amplitude 10 cm and time per...

    Text Solution

    |

  11. The speed of a particle executing SHM with amplitude of displacement 5...

    Text Solution

    |

  12. Two identical springs of spring constant k are attached to a block of ...

    Text Solution

    |

  13. How does the huge ball ( 5.4 xx 10^(5) kg ) hanging on the 22^(nd) flo...

    Text Solution

    |

  14. A block whose mass is 2 kg is fastened on a spring whose spring consta...

    Text Solution

    |

  15. A particle executes SHM with amplitude A and time period T. When the d...

    Text Solution

    |

  16. A particle of mass 0.2 kg is excuting SHM of amplitude 0.2 m. When it ...

    Text Solution

    |

  17. A 2.5 kg collar is attached to a spring of spring constant 250 Nm^(-...

    Text Solution

    |

  18. Calculate the length of a Second's pendulum ( the pendulum which ticks...

    Text Solution

    |

  19. If the length of a simple pendulum of a clock incrreases by 2% how mu...

    Text Solution

    |

  20. For the damped oscillator shown in previous Figure, the mass m of the ...

    Text Solution

    |