A conducting wire has length `L_(1)` and diameter `d_(1)`. After stretching the same wire length becomes `L_(2)` and diameter `d_(2)`, The ratio of resistances before and after stretching is

Rohan took a conducting wire of length 30 cm and diameter 1.2 mm. After connecting to a power supply, Rohan found that the resistance of the wire is 210 Omega . What is the resistivity of its material?

Two metal wires P and Q of same length and material are stretched by same load. Yheir masses are in the ratio m_(1):m_(2) . The ratio of elongation of wire P to that of Q is

Under the action of load F_(1), the length of a string is L_(1) and that under F_(2), is L_(2). The original length of the wire is

Determine the resistance of a copper wire having a length of 1 km and diameter of 0.5 mm

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 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 wire is

Two pieces of wires A and B of the same material have their lengths in the ratio 2 :3 and diameters in the ratio 2 : 3. They are stretched by forces, which are in the ratio 2 : 3. Their elongations are in the ratio

The resistance of a wire of length 31.4 m and diameter 1 mm is 20 Omega . Find the resistivity of the material of the wire.

An open organ pipe of length l and diameter d. If velocity of air is V then, The fundamental frequency of the pipe is

Two wires having same length and material are stretched by same force. Their diameters are in the ratio 1:3. The ratio of strain energy per unit volume for these two wires (smaller to larger diameter) when stretched is

A sonometer wire of length l_(1) is in reasonance with a frequency 250 Hz. If the length of wire is increasesed then 2 beats per second are heard. What is ratio of the lengths of the wire ?