A current `0.2 A` flows in a wire of resistance `15 Omega`. Find the potential difference across the ends of the wire.

A current of 2.34 A flows in resistance of 11. 111111Omega The potential difference across the given resistance with due regard for the significant figure is

When a current flows in a wire of resistance R at a constan t potential difference, then the value of heat produced by a current is inversely proportional to:

Calculate the current flowing through a wire of resistance 5 Omega connected to a battery of potential difference 3 V.

Calculate the amount of charge flowing in 2 minutes in a wire of resistance 10 Omega when a potential difference of 20 V is applied between its ends

Find potential difference across the resistance 300 Omega in A and B.

A current of 1.0 ampere is flowing through a copper wire of length 0.1 metre and cross-section 1.0xx10^(-6) m^(2) . (i) If the specific resistance of copper be 1.7xx10^(-8) Omega m , calculate the potential difference across the ends of the wire. (ii) Determine current density in the wire. (iii) If there be one free electron per atom in copper, then determine the drift velocity of electrons. Given : density of copper =8.9xx10^(3) kg m^(-3) , atomic weight =63.5, N=6.02xx10^(26) per kg-atom.

Calculate the current flowing through a wire of resistance 7.5 Omega connected to a battery of potential difference 1.5. V.

In transferring 1.5 C charge through a wire, 9 J of work is needed. Find the potential difference across the wire.

When a current of 2 A flows in a battery from negative to positive terminal, the potential difference across it is 12 V. If a current of 3 A flowing in the opposite direction produces a potential difference of 15 V, the emf of the battery is

In a potentiometer, a uniform potential gradient of 0.8 V m^(-1) is maintained across its 10 m wire . The potential difference across two points on the wire located at 65 cm and 2.45 m is