Home
Class 14
PHYSICS
Figure shows a circuit that contains thr...

Figure shows a circuit that contains three identical resistors with resistance R = 9.0`Omega` each, two identical inductors with inductance L = 2.0 mH each, and an ideal battery with emf `epsilon` = 18 V. The current "i" through the battery just after the switch closed is, .......

A

2 mA

B

0.2 A

C

2 A

D

0 ampere

Text Solution

Verified by Experts

Promotional Banner

Similar Questions

Explore conceptually related problems

Figure shows a circuit that contains three identical resistors with resistance R=0.9 Omega each, two identical inductors with inductance L=2.0 mH each, and an ideal battery with emf epsilon=18 V . The current i through the battery just after the switch closed is.......:

Figure shows a circuit that contains three identical resistors with reisistance R=9.0 Omega each, two identical inductors with inductance L=2.0mH each, and an ideal battery with emf e= 18V . The current I through th battery just after the switch closed is

Figure shows a circuit that contains four identical resistors with resistance R = 2.0 Omega , two identical inductors with inductance L = 2.0 mH and an ideal battery with emf E = 9 V. The current 'i' just after the switch 'S' is closed will be :

in the figure shown , a circuit contains two identical resistors with resistance R= Omega and an inductance with L=2 H ,An ideal battery of 15 V is connected in the circuit what will be the current through the battery long after the switch is clossed ?

The figure shows three circuits with identical batteries, inductors and resistance . Rank the circuits in decreasing order, according to the current through the battery just after the switch is closed

The figure shows three circuit with identical batteries, inductors and resistance. Rank the circuit according to the currents through the battery just after the switch is closed greatest first :

The figure shows three circuits with identical batteries, inductors and resistance, Rank the circuits according to the currents through the battery just after the switch is closed, greatest first :