In determination of Young's modulus of elasticity of a wire, a force is applied and extension is recorded. Initial length of wire is '1 m'. The curve between extension and stress is depicted, then Young's modulus of wire will be

To determine Young's modulus of the material of a wire,

When a force is applied along the length of the wire

In an experiment to measure Young's modulus, the wire is thin and long so that

A potential difference 3V is applied across a potentiometer wire of length 10 m. If the length of wire is reduced by 1 m the value of potential gradient in V//m will be

Energy density of wire is 0.25 J//m^(3), when its extension is 0.2 cm. Find density of wire, when elongation is 1 cm

The load which is given to the pan in the determination of Young's modulus causing no deformation in the wire is called

A graph of force against extension of a wire is plotted. The area under the curve is

The following four wires are made of the same material. Which of these will have the largest extension when the same tension is applied

A ring of radius R is made of a thin wire of material of density rho , having cross-section area a and Young's modulus y. The ring rotates about an axis perpendicular to its plane and through its centre. Angular frequency of rotation is omega . The tension in the ring will be

A telephone wire 125m long and 1mm in radius is stretched to a length 125.25m when a force of 800N is applied. What is the value of Young’s modulus for material of wire?