Home
Class 12
PHYSICS
AB wire (length x) is vibrating in its f...

AB wire (length x) is vibrating in its fundamental mode. Wire AB is in resonance with resonance tube in which air column (length x/2) is also vibrating with its fundamental mode. Sound speed is 400 m/sec and linear mass density of AB wire is `10^-4` kg/m and g=10 `m//sec^2`, value of mass m =`[beta(10^-1)] kg`, then find value of `beta`.Neglect the masses of wires in comparison to block's mass 'm'.

Text Solution

Verified by Experts

`T_1=2T_0=2[(2m(2m))/(m+2m)]g`
`T_1=(8m)/3g=(80m)/3`...(i)
In resonance ,
`f_(wire)=f_(tube)`
`((1)V_1)/(2l_1)=((1)V_2)/(4l_2)`
`((sqrt(T_1/mu)))/(2(x))=((400))/(4(x/2))`
`rArr T_1=mu(16xx10^4)`
From (i), `80/3m=10^-4(16xx10^4)`
`m=0.6 kg.`
Promotional Banner

Topper's Solved these Questions

  • NUCLEAR PHYSICS

    RESONANCE|Exercise Advanced level solutions|16 Videos

  • SEMICONDUCTORS

    RESONANCE|Exercise Exercise 3|88 Videos

Similar Questions

Explore conceptually related problems

Length of 0.3 m wire vibrates in fundamental mode at frequency 480 Hz. The velocity of sound wave in air is

Length of 0.3 m wire vibrates in fundamental mode at frequency 480Hz. Then the velocity of sound wave in air is

A wire of length 2.00 m is stretched to a tension of 160 N. If the fundamental frequency of vibration is 100 Hz, find its linear mass density.

Tension applied to a wire of length 1m and its mass 1g, if it is to vibrate with the fundamental frequency of 50 Hz, will be

A steel piano wire 0.5 m long has a total mass of 0.01 kg and is stretched with a tension of 800 N. The frequency, when it vibrates in its fundamental mode, is

An air column enclosed in an open pipe is vibrating in its fundamental mode . The fundamental frequency is 30 Hz. If the velocity of sound air is 300 m s ^(-1) , find the length of the pipe and frequency of 3rd overtone .

Consider the situation shown in figure. The wire which has a mass of 4.00 g oscillates in its second harmonic and sets the air column in the tube into vibrations in its fundamental mode. Assuming that the speed of sound in air is 40 m s^-1 , find the tension in the wire. .

A sonometer wire of length 1 m is stretched by a weight of 10 kg. The fundamental frequency of vibration is 100 Hz. Determine the linear density of material of wire.

A wire of length 40 cm which has a mass of 4 g oscillates in its second harmonic and sets the air column in the tube to vibrations in its funrations in its fundamental mode as shows in figure. Assuming the speed of sound in air as 340 m//s . Find the tension in the wire.

RESONANCE-REVISION DPP-All Questions
  1. A rope, under tension of 200N and fixed at both ends, oscialltes in a ...

    Text Solution

    |

  2. A sound wave of wavelength 20pi cm travels in air if the difference be...

    Text Solution

    |

  3. AB wire (length x) is vibrating in its fundamental mode. Wire AB is in...

    Text Solution

    |

  4. A source of sound of frequency 300 Hz and a receiver are located along...

    Text Solution

    |

  5. The speed of sound in a mixture of n1=2 moles of He , n2=2 moles of H2...

    Text Solution

    |

  6. A straight line source of sound of length L=10m, emits a pulse of soun...

    Text Solution

    |

  7. A string of length 1.5 m with its two ends clamped is vibrating in fun...

    Text Solution

    |

  8. A driver is riding a car with velocity vc between two vertical walls o...

    Text Solution

    |

  9. A driver is riding a car with velocity vc between two vertical walls o...

    Text Solution

    |

  10. Stationary wave is setup in a uniform string clamped at both the ends....

    Text Solution

    |

  11. Stationary wave is setup in a uniform string clamped at both the ends....

    Text Solution

    |

  12. Stationary wave is setup in a uniform string clamped at both the ends....

    Text Solution

    |

  13. A plano creates sound by gently strinking a taut wire with a soft hamm...

    Text Solution

    |

  14. A plano creates sound by gently strinking a taut wire with a soft hamm...

    Text Solution

    |

  15. Figure shows two line sources of sound, S1 and S2 separated by a dista...

    Text Solution

    |

  16. Figure shows two line sources of sound, S1 and S2 separated by a dista...

    Text Solution

    |

  17. Figure shows two line sources of sound, S1 and S2 separated by a dista...

    Text Solution

    |

  18. In each of the four situations of column-I , a stretched string or an ...

    Text Solution

    |

  19. Match the column :

    Text Solution

    |

  20. The ratio of translational and rotational kinetic energies at 100K tem...

    Text Solution

    |