A uniformly wound long solenoid of inductance `L` and resistance `R` is cut into two parts in the ratio `eta:1`, which are then connected in parallel. The combination is then connected to a cell of emf `E`. The time constant of the circuit is

A wire of resistance R is cut into ‘ n ’ equal parts. These parts are then connected in parallel. The equivalent resistance of the combination will be

A uniformly wound solenoid coil of self inductance 1.8xx10^(-4)H and resistance 6Omega is broken up into two identical coils. These identical coils are then connected in parallel across a 12V battery of negligible resistance. The time constant and steady state current will be

A uniformly wound solenoid coil of slf inductnace 4 mH and resistance 12 Omega is broken int two parts. These two coil are connected in parallel across is 12V battery. The steady current through battery is

An inductor coil of inductance L is divided into two equal parts and both parts are connected in parallel. The net inductance is :

A wire of resistanc e 9Omega is broken in two parts. The length ratio being 1:2 . The two pieces are connected in parallel. The net resistance will be

A 9Ω resistance is cut into three equal parts and connected in parallel. Find the equivalent resistance of the combination.

Two resistors of resistances 2Omega and 6Omega are connected in parallel. This combination is then connected to a battery of emf 2 V and internal resistance 0.5 Omega . What is the current flowing through the battery ?

A piece of wire of resistance R is cut into five equal parts. These parts are then connected in parallel. If the equivalent resistance of this combination is R' , then the ratio R//R' is :

A wire of resistance .R. is cut into .n. equal parts. These parts are then connected in parallel with each other. The equivalent resistance of the combination is :

A uniform wire of resistance (50 Omega) is cut into 5 equal parts. These parts are now connected in parallel.the Equivalent resistance of the combination is