Home
Class 11
PHYSICS
A mild steel wire of length 1.0m and cro...

A mild steel wire of length `1.0m` and cross sectional area `2L` is strethched, within its elastic limit horizontally between two pillars(figure). A mass of `m` is suspended form the midpont of the wire. Strain in the wire is

A

`(x^(2))/(2L^(2))`

B

`(x)/(L)`

C

`x^(2)//L`

D

`x^(2)//2L`

Text Solution

Verified by Experts

The correct Answer is:
A
Consider the diagram below

Hence, change in length
`DeltaL = BO + OC - (BD+DC)`
`=2BO - 2BD " "(because BO = OC, BD = DC)`
`=2[BO-BD]`
`=2[(x^(2) + L^(2))^(1//2)-L]`
`=2L [(1+ (x^(2))/(L^(2)))^(1//2)-1]`
`~~2L[1+ (1)/(2)(x^(2))/(L^(2))-1]=(x^(2))/(L)" "[because x ltltL]`
`therefore " Strain" = (DeltaL)/(2L)= (x^(2)//L)/(2L)=(x^(2))/(2L^(2))`
Promotional Banner

Topper's Solved these Questions

  • MECHANICAL PROPERTIES OF SOLIDS

    NCERT EXEMPLAR ENGLISH|Exercise LONG SHORT ANSWER TYPE QUESTION|16 Videos

  • MECHANICAL PROPERTIES OF FLUIDS

    NCERT EXEMPLAR ENGLISH|Exercise Long Answer Type Questions|3 Videos

  • MOTION IN A PLANE

    NCERT EXEMPLAR ENGLISH|Exercise Multiple Choice Questions|37 Videos

Similar Questions

Explore conceptually related problems

A mild steel wire of length 2L is strethched, within its elastic limit horizontally between two pillars(figure). A mass of m is suspended form the midpont of the wire. Strain in the wire is

A mild steel wire of length 1.0 m and cross-sectional are 0.5 xx 10^(-2)cm^(2) is streached, well within its elastic limit, horizontally between two pillars. A mass of 100 g is suspended from the mid point of the wire, calculate the depression at the mid point. g = 10ms^(-2), Y=20 xx 10^(11)Nm^(-2 .

A steel wire of length 2L and cross-section area A is stretched, wetl within elastic limit horizontally between two pillars, a mass m is suspended from the mid-point of wire such that depression at the middle is x. Strain in the wire is proportional to

A metal wire of length L_1 and area of cross section A is attached to a rigid support. Another metal wire of length L_2 and of the same cross sectional area is attached to the free end of the first wire. A body of mass M is then suspended from the free end of the second wire, if Y_1 and Y_2 are the Young's moduli of the wires respectively the effective force constant of the system of two wires is

A metal wire of length L_1 and area of cross section A is ttached to a rigid support. Another metal wire of length L_2 and of the same cross sectional area is attached to the free end of the first wire. A body of mass M is then suspended from the free end of the second wire, if Y_1 and Y_2 are the Young's moduli of the wires respectively the effective force constant of the system of two wires is

A steel wire of negligible mass, length 2I , cross sectional area 'A' and Young's modulus 'Y' is held between two rigid walls. A small body of mass 'm' is suspended from its middle point 'O' as shown. The vertical descent of the middle point 'O' of the wire is

A wire of cross section A is stretched horizontally between two clamps located 2l m apart. A weight W kg is suspended from the mid-point of the wire. If the mid-point sags vertically through a distance x lt l , the strain produced is

A wire of uniform cross-sectional area A and young's modulus Y is stretched within the elastic limits. If s is stress in the wire, the elastic energy density stored in the wire in terms of the given parameters is

A steel wire of length l and cross sectional area A is stretched by 1 cm under a given load. When the same load is applied to another steel wire of double its length and half of its cross section area, the amount of stretching (extension) is

A wire of length l and cross-sectional are A is suspended at one of its ends from a ceiling. What will be its strain energy due to its own weight, if the density and Young's modulus of the material of the wire be d and Y?

NCERT EXEMPLAR ENGLISH-MECHANICAL PROPERTIES OF SOLIDS-LONG SHORT ANSWER TYPE QUESTION
  1. A mild steel wire of length 1.0m and cross sectional area 2L is streth...

    Text Solution

    |

  2. The young's modulus for steel is much more then that for rubber. For t...

    Text Solution

    |

  3. Is stress a vector quantity ?

    Text Solution

    |

  4. Two identical springs of copper and steel are equally strectched. On w...

    Text Solution

    |

  5. Young's modulus for a perfectly rigid body is

    Text Solution

    |

  6. what is the Bulk modulus for a perfect rigid body ?

    Text Solution

    |

  7. A wire of length L and radius a rigidlyl fixed at one end. On stretchi...

    Text Solution

    |

  8. A steel rod (Y = 2.0 xx 10^(11) N//m^(2) " and "alpha = 10^(-50).^(@)C...

    Text Solution

    |

  9. To What depth must a rubber ball be taken in deep sea so that its volu...

    Text Solution

    |

  10. A truck is pulling a car out of a ditch by means fo a steel cable that...

    Text Solution

    |

  11. Two idential solid balls, one of ivory and the other of wet caly, are...

    Text Solution

    |

  12. Consider a long steel bar under a tensile stress due to forces F, acti...

    Text Solution

    |

  13. A steel wire of mass mu per unit length with a circular cross-section ...

    Text Solution

    |

  14. A stell rod of length 2l corss sectional area A and mass M is set rot...

    Text Solution

    |

  15. An equilateral triangle ABC if formed by two Cu rods AB and BC and one...

    Text Solution

    |

  16. In nature, the failure of structural members usually result from large...

    Text Solution

    |

  17. A stone of mass m is tied to an elastic string of negligble mass and s...

    Text Solution

    |