A wire of length L is fixed at one end. It is elongates by I when a load W is hanged from other end. If the wire goes over a pulley and two weights W each are hung at the two ends, the elongation of the wire will be ......

A wire elongates by l mm when a load W is hanged from it. If the wire goes over a pulley and two weights W each are hung at the two ends, the elongation of the wire will be (in mm)

A wire elongastes by 1.0 mm when a load W ils hung from it. If this wire goes over a pulley and two weights W each are hung at the two ends the elongation of the wire will be

A wire elongates by l units, when a load w is suspended from it . If the wirew gets over a pulley ( equally on both the sides ) and two weights w each are hung at the two ends, the elongation of wire (in units ) will be

When a weight W is hung from one end of a wire of length L (other end being fixed), the length of the wire increases by l . If the same wire is passed over a pulley and two weights W each are hung at the two ends,what will be the total elongation in the wire?

A wire of length 1m fixed at one end has a sphere attached to it at the other end. The sphere is projected hroizonatally with a veloicity of sqrt(9g) . When it decribes a vertical circle the ratio of elongations of the wire when the sphere is at top and bottom of the circle is

One end of a uniform wire of length l and weight W is attached to a point in the roof and a weight W/2 is suspended from the lower end. If A is the area fo cross-section of the wire, then stress of the wire at its midpoint will be

A body of mass M is attached to the lower end of a metal wire, whose upper end is fixed . The elongation of the wire is l .

The adjacent graph shows the estension (Deltal) of a wire of length 1m suspended from the top of a roof at one end and with a load W connected to the other end. If the cross-sectional area of the wire is 10^-6m^2 , calculate the Young's modulus of the material of the wire.

When a load W is hung from a wire, it extends by Deltal . The heat produced in the process is