σ1 and σ2 are the electrical conductivities of Ge and Na respectively. If these substances are heated, then
(1) Both σ1 and σ2 increase
(2) σ1 increases and σ2 decreases
(3) σ1 decreases and σ2 increases
(4) Both σ1 and σ2 decrease
Masses of 3 wires of same metal are in the ratio 1 : 2 : 3 and their lengths are in the ratio 3 : 2 : 1. The electrical resistances are in ratio
(1) 1 : 4 : 9
(2) 9 : 4 : 1
(3) 1 : 2 : 3
(4) 27 : 6 : 1
A wire of radius r has resistance R. If it is stretched to a radius of , its resistance becomes
(1)
(2)
(3)
(4)
A copper wire has a square cross-section, 2.0 mm on a side. It carries a current of 8 A and the density of free electrons is 8 × 1028 m–3. The drift speed of electrons is equal to
(1) 0.156 × 10–3 m.s–1
(2) 0.156 × 10–2 m.s–1
(3) 3.12 × 10–3 m.s–1
(4) 3.12 × 10–2 m.s–1
What length of the wire of specific resistance is needed to make the resistance of 4.2 Ω (diameter of wire = 0.4 mm)
(1) 4.1 m
(2) 3.1 m
(3) 2.1 m
(4) 1.1 m
A strip of copper and another of germanium are cooled from room temperature to 80 K. The resistance of
(1) Each of these increases
(2) Each of these decreases
(3) Copper strip increases and that of germanium decreases
(4) Copper strip decreases and that of germanium increases
The length of a given cylindrical wire is increased by 100%. Due to the consequent decrease in diameter, the change in the resistance of the wire will be :
(1) 300%
(2) 200%
(3) 100%
(4) 50%
Express which of the following setups can be used to verify Ohm’s law
(1) | |
(2) | |
(3) | |
(4) |
In a hydrogen discharge tube, it is observed that through a given cross-section 3.13 × 1015 electrons are moving from right to left and 3.12 × 1015 protons are moving from left to right per sec. What is the electric current in the discharge tube and what is its direction :
(1) 1 mA towards the right
(2) 1 mA towards left
(3) 2 mA towards left
(4) 2 mA towards the right
The electric resistance of a certain wire of iron is R. If its length and radius are both doubled, then :
(1) The resistance will be doubled and the specific resistance will be halved
(2) The resistance will be halved and the specific resistance will remain unchanged
(3) The resistance will be halved and the specific resistance will be doubled
(4) The resistance and the specific resistance, will both remain unchanged