A steel wire of diameter `d=1.0mm` is stretched horizontally between two clamps located at the distance `l=2.0m` from each other. A weight of mass `m=0.25kg` is suspended from the mid-point O of the wire. What will the resulting descent of the point O be in centrimetres?

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 cross section A is stretched horizontally between two clamps located 2lm 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 1 the strain produced is

A mild steel wire of length 2L and cross-sectional area A is stretched, well within elastic limit, horizontally between two pilars show in the figure A mass m is suspended from the mid point of the wire. Strain in the wire is .

A steel wire of diameter 1 mm, and length 2 m is stretched by applying a force of 2.2 kg wt. the strain is

A mild steel wire of length 2L and crosssectional area A is stretched, well within elastic limit, horizontally between two pillars as shown in figure. A mass m is suspended from the mid point of the wire, the mid point lower by distance x. Then strain in the wire is ......

Figure shows a wire of length 2L and crosssectional area A, stretched horizontally between two clamps. When an object of mass M is suspended from the mid point of the wire, the downward displacement of the young's modulus of the material of the wire is x. Shown that M = (YA x ^(3))/(gL ^(3)) (where theta is small)