Home
Class 12
PHYSICS
A wire having a linear mass density 10^(...

A wire having a linear mass density `10^(-3) kg//m` is stretched between two rigid supports with a tension of `90 N`. This wire resontes at a frequency of `350 Hz`. The next higher frequency at which the same wire resonates is `420 Hz`. Find the length of the wire.

Text Solution

Verified by Experts

Suppose the wire vibrates at `350 Hz` in its nth harmonic and at `420 Hz` in its `(n + 1)` th harmonic.
`350s^(-1) = (n)/(2 L) sqrt((F)/(mu)) ….(i)`
and `420s^(-1) = ((n + 1))/(2l.) sqrt((F)/(mu)) …..(ii)`
This gives `(420)/(350) = (n + 1)/(n)` or, `n = 5`.
Putting the value in `(i)`
`350 = (5)/(2l)sqrt((90)/(10^(-3))) rArr 350 = (5)/(2l) xx 300 rArr l = (1500)/(700) = (15)/(7)m = 2.1 m`
Promotional Banner

Topper's Solved these Questions

  • WAVE ON STRING

    RESONANCE|Exercise Solved Miscellaneous Problems|7 Videos

  • WAVE ON STRING

    RESONANCE|Exercise Board Level Exercise|27 Videos

  • TRAVELLING WAVES

    RESONANCE|Exercise Exercise- 3 PART II|7 Videos

  • WAVE OPTICS

    RESONANCE|Exercise Advanced Level Problems|8 Videos

Similar Questions

Explore conceptually related problems

A wire having a linear mass density 5.0 xx 10^(-3) kg/m is stretched between two rigid supports with a tension of 450 N. The wire resonates at a frequency of 420 Hz. The next higher frequency at which the same wire resonates is 480 Hz. Find the length of the wire.

A wire having a linear mass density 5xx10^(-3) kg/m is stretched between two rigid supports with a tension of 450 N. The wire resibate at a frequency of 420 Hz. The next higher frequency at which the same wire resonates is 490 Hz. Find the length of wire -

A wire having a linear mass density 9.0 xx 10^(-4) kg/m is stretched between two rigid supports with a tension of 900 N. The wire resonates at a frequency of 500 Hz. The next higher frequency at which the same wire resonates is 550 Hz. The length of the wire is______m.

A wire having a linear mass density 5.0xx10^(3) kg//m is stretched between two rigid supports with tension of 450 N. The wire resonates at a frequency of 420 Hz . The next higher frequency at which the same wire resonates is 480 N . The length of the wire is

Awire having a linear mass density of 5.0xx10^(-3)kgm^(-1) is stretched between two rigid supports with a tension of 45N. The wire resonates at a frequency of 420Hz. The next higher frequency at which the wire resonates is 490Hz. Find the length of the wire.

A wire having a linear density of 0.05 g//cm is stretched between two rigid supports with a tension of 450N. It is observed that the wire resonates at a frequency of 420 Hz. The next higher frequency at which the same wire resonates is 490 Hz. Find the length of the wire.

A wire of linear mass density 9x10^(-3) kg/m is stretched between two rigid supports under a tension of 360 N. The wire resonates at frequency 210 Hz. The next higher frequency at which the same wire resonates is 280 Hz. The number of loops produced in first case will be-

A uniform wire of linear density 0.004 per kg-m, when stretched between two rigid supports, with a tension 3.6 xx 10^(2) N, resonates with a frequency of 420 hz. The next harmonic frequency with which the wire resonates is 490 Hz. The length of the wire in metre is

A wire having a linear mass density 5.0xx10^(03) kg m^(-1) is stretched between two rigid supportes with a tension of 450 N. The wire resonates at which the same wire resontes is 490 Hz. Find the length of the wire.

A wire having a linear density of 0.05 kg/m is stretched between two rigid supports. The tension in the wire is 4.5xx10^7 dyne . If the observed that the wire resonates at a frequency of 420 Hz and the next higher frequency at which the wire resonates is 490 Hz, then the length of the wire would be

RESONANCE-WAVE ON STRING -Exercise- 3 PART I
  1. A wire having a linear mass density 10^(-3) kg//m is stretched between...

    Text Solution

    |

  2. A transverse wave travelling in a string produce maximum transverse ve...

    Text Solution

    |

  3. A 20 cm long string, having a mass of 1.0g, is fixed at both the ends....

    Text Solution

    |

  4. When two progressive waves y(1) = 4 sin (2x - 6t) and y(2) = 3 sin (2x...

    Text Solution

    |

  5. A massless rod BD is suspended by two identical massless strings AB an...

    Text Solution

    |

  6. A transverse sinusoidal wave moves along a string in the positive x-di...

    Text Solution

    |

  7. A horizontal stretched string, fixed at two ends, is vibrating in its ...

    Text Solution

    |

  8. One end of a taut string of length 3m along the x-axis is fixed at x =...

    Text Solution

    |

  9. A string that is stretched between fixed supports separted by 75.0 cm ...

    Text Solution

    |

  10. A steel wire of length 50sqrt(3) cm is connected to an aluminium wire ...

    Text Solution

    |

  11. An aluminium wire of cross-sectionbal area 1 xx 10^(-6)m^(2) is joined...

    Text Solution

    |

  12. The fundatmental frequency of a sonometer wire increases by 6 Hz if it...

    Text Solution

    |

  13. A metal wire with volume density rho and young's modulus Y is stretche...

    Text Solution

    |

  14. Find velocity of wave is string A &B.

    Text Solution

    |

  15. A string of length 50 cm is vibrating with a fundamental frequency of ...

    Text Solution

    |

  16. A string fixed at both ends is vibrating in the lowest mode of vibrat...

    Text Solution

    |

  17. A guitar string is 180 cm long and has a fundamental frequency of 90 H...

    Text Solution

    |

  18. A piano wire weighting 4 g and having a length of 90.0 cm emits a fund...

    Text Solution

    |

  19. Length of a sonometer wire is 1.21 m. Find the length of the three seg...

    Text Solution

    |

  20. In the figure shown A and B are two ends of a string of length 100m. S...

    Text Solution

    |