Find the resistance of a hollow cylindrical conductor of length 1.0m and inner and outer radii 1.0mm and 2.0mm respectively. The resistivity of the material is `2.0xx10^(-8)(Omega)m`.

Calculate the resistance of a hollow cylindrical pipe of inner and outer radius respectively 0.2 m and 0.3 m. The length of the cylinder is 3.14 m and its specific resistance is 2 xx 10^(-8) ohm xx m .

The emf E and the internal resistance r of the battery shown in figure are 4.3V and 1.0Omega respectively. The external resistan ce R is 50Omega . The resistance of the ammeter and voltameter are 2.0Omega an d 200Omega respectively. Find the respective reading of the voltmeter.

Steam at 373 K is passed through a tube of radius 10 cm and length 10 cm and length 2m . The thickness of the tube is 5mm and thermal conductivity of the material is 390 W m^(-1) K^(-1) , calculate the heat lost per second. The outside temperature is 0^(@)C .

Two metal spheres are falling through a liquid of density 2xx10^(3)kg//m^(3) with the same uniform speed. The material density of sphere 1 and sphere 2 are 8xx10^(3)kg//m^(3) and 11xx10^(3)kg//m^(3) respectively. The ratio of their radii is :-

Resistance of wire having diameter 2 mm and length 100 cm is 0.7 Omega , so resistivity of wire = .....

When 115V is applied across a wire that is 10m long and has a 0.30mm radius, the current density is 1.4xx10^(4) A//m^(2) . The resistivity of the wire is

A negligibly small current is passed through a wire of length 20 m and uniform cross-section 6.0 xx 10^(7) m^(2) , and its resistance is measured to be 10.0 Omega . What is the resistivity of the material at the temperature of the experiment ?

A negligibly small current is passed through a wire of length 15 m and uniform across-section 6.0 xx 10 ^(-7) m ^(2), and its resistance is measured to be 5.0Omega What is the resistivity of the material at the temperature of the experiment ?

Two materials have the value of alpha_(1) and alpha_(2) as 6 xx 10^(-4) (""^(@) C )^(-1) and - 5 xx 10^(-4) (""^(@) C )^(-1) respectively. The resistivity of the first material rho_(20) = 2 xx 20^(-8) Omega. A new material is made by combining the above two materials. the resistivity does not change with temperature . The resistivity rho_(20) of the second material is .... Considering the reference temperature as 20^(@) C assume that the resistivity of the new material is equal to the sum of the resistivity of its component materials.

On applying an electric field of 15 xx 10^(-6) vm^(-1) across a conductor , current density through it is 3.0 Am^(-2) . The resistivity of the conductor is .......