Home
Class 12
PHYSICS
In the figure shown A and B are two ends...

In the figure shown `A` and `B` are two ends of a string of length `100m`. `S_(1)` and `S_(2)` are two sources due to which point `'A'` and `'B'` oscillate in `'y'` and `'z'` directions respectively according to the equation `y = 2 sin (100 pi t + 30^(@))` and `z = 3 sin (100 pi t + 60^(@))` where `t` is in `sec` and `y` is in `mm`. The speed of propagation of disturbance along the string is `50 m//s`. Find the instantaneous positions vector (in `mm`) and velocity vector in `(m//s)` of a particle `'P'` of string which is at `25m` from `A`. You have to find these parameters after both the disturbance from `S_(1)` and `S_(2)` have reached `'P'`. Also find the phase difference between the waves at the point `'P'` when they meet at `'P'` first time.

Text Solution

Verified by Experts

The correct Answer is:
Phase of difference at time `'t' = 30^(0)` constant al-ways after thy meet at `'P'`
`y_(p) = 2 sin (100pit + 30^(@))`
`y = 2 sin [100pit (t - (25)/(50)) + 30^(@)] = 2 sub(100pt - 50p + 30^(0))`
`z = 3 sin [100pi(t - (75)/(50)) + 60^(0)]`
`= 3 sin(100 pit - 150pi + 60^(0)) = 3 sin (100pit + 60^(0))`
`overset(vec)(r_("in mm")) = xhat(i) + yhat(j) + zhat(k)`
`= 25000hat(i) + 2sin(100pi + 30^(0))hat(j) + 3 sin (100pit + 60^(0))hat(k)`
`overset(vec)(v) = (doverset(vec)r)/(dt) = 2 xx 100picos(100pit + 30^(0))hat(i) + 3 xx 10 pi cos(100pithat(j) + 60^(0))hat(k)`
Phase difference at time `'t' = 30^(0)` costant always after they meet at `'P'`.
Promotional Banner

Topper's Solved these Questions

  • WAVE ON STRING

    RESONANCE ENGLISH|Exercise Exercise- 3 PART II|7 Videos

  • WAVE ON STRING

    RESONANCE ENGLISH|Exercise Exercise- 2 PART IV|9 Videos

  • TRAVELLING WAVES

    RESONANCE ENGLISH|Exercise Exercise- 3 PART I|19 Videos

  • WAVE OPTICS

    RESONANCE ENGLISH|Exercise Advanced Level Problems|8 Videos

Similar Questions

Explore conceptually related problems

A particle moves along y - axis according to the equation y("in cm") = 3 sin 100pi t + 8sin^(2) 50pi t - 6

Find the effective value of current. i=2 sin 100 (pi)t + 2 cos (100 pi t + 30^(@)) .

Find the effective value of current. i=2 sin 100 (pi)t + 2 cos (100 pi t + 30^(@)) .

The voltage of an AC source varies with time according to the equation, V=100 sin 100 pi I cos 100 pi t .Where t is in second and V is in volt.Then:

Determine the resultant of two waves given by y_(1) = 4 sin(200 pi t) and y_(2) = 3 sin(200 pi t + pi//2) .

A wave is represented by the equation : y = A sin(10 pi x + 15 pi t + pi//3) where, x is in metre and t is in second. The expression represents.

A particle is subjected to two simple harmonic motion along x and y-directions according to equations x = 4sin 100pi t and y = 3sin 100pit Choose the correct statement –

The phase difference between two SHM y_(1) = 10 sin (10 pi t + (pi)/(3)) and y_(2) = 12 sin (8 pi t + (pi)/(4)) to t = 0.5s is

The voltage of an a.c. source varies with time according to relation E=120 sin 100pitcos100 pi t then

In case of superposition of waves (at x = 0). y_1 = 4 sin(1026 pi t) and y_2 = 2 sin(1014 pi t)

RESONANCE ENGLISH-WAVE ON STRING -Exercise- 3 PART I
  1. A transverse wave travelling in a string produce maximum transverse ve...

    Text Solution

    |

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

    Text Solution

    |

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

    Text Solution

    |

  4. A massless rod of length l is hung from the ceiling with the help of t...

    Text Solution

    |

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

    Text Solution

    |

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

    Text Solution

    |

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

    Text Solution

    |

  8. A string is stretched betweeb fixed points separated by 75.0 cm. It ob...

    Text Solution

    |

  9. An aluminium wire and a steel wire of same cross-sectional of 10^(-2)c...

    Text Solution

    |

  10. An aluminium wire of cross-sectional area (10^-6)m^2 is joined to a st...

    Text Solution

    |

  11. The fundamental frequency of a wire of certain length is 400 Hz. When ...

    Text Solution

    |

  12. A metal wire with density ρ and Young's modulus Y is stretched between...

    Text Solution

    |

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

    Text Solution

    |

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

    Text Solution

    |

  15. A string fixed at both ends is vibrating in the lowest possible mode o...

    Text Solution

    |

  16. A guitar string is 90 cm long and has a fundamental frequency of 124 H...

    Text Solution

    |

  17. A piano wire weighing 6.00 g and having a length of 90.0 cm emits a fu...

    Text Solution

    |

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

    Text Solution

    |

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

    Text Solution

    |