In the given circuit, let i(1) be the cu...

In the given circuit, let `i_(1)` be the current drawn battery at time `t=0` and `i_(2)` be steady current at `t=oo` then the ratio `(i_(1))/(i_(2))` is

A

`1.0`

B

`0.8`

C

`1.2`

D

`1.5`

Text Solution

Verified by Experts

The correct Answer is:

D

Topper's Solved these Questions

INDUCTANCE
CENGAGE PHYSICS|Exercise Multiple Correct Answer|3 Videos
INDUCTANCE
CENGAGE PHYSICS|Exercise Comprehension Type|9 Videos
INDUCTANCE
CENGAGE PHYSICS|Exercise Subective Type|2 Videos
HEATING EFFECT OF CURRENT
CENGAGE PHYSICS|Exercise Thermal Power in Resistance Connected in Circuit|28 Videos
KINETIC THEORY
CENGAGE PHYSICS|Exercise Question Bank|31 Videos

Similar Questions

Explore conceptually related problems

In the given circuit, let i_(10) be the current drawn battery at time t=0 and i_(20) be steady current at t=oo then the ratio (i_(1))/(i_(2)) is

In the given circuit, what is the current I (in A) drawn from battery at time t = 0.

In the given circuit the current I_(1) is

In the given circuit currents I_1 and I_2 are .

In the given circuit if I_(1) and I_(2) be the current in resistance R_(1) and R_(2) respectively then:

In the circuit shown, switch Sis closed att=O. Let i_(1) and i_(2) be the current at any finite time I, then the ratio i_(1)//i_(2) is

In the circuit shwon in fig. switch S is closed at time t = 0. Let I_1 and I_2 be the currents at any finite time t, then the ratio I_1// I_2

In the circuit shown switch S is closed at t=0 . Let i_1 and i_2 be the current at any finite time t then the ratio i_1/i_2

In the given circuit find the ratio of i_(1) "to" i_(2) . Where is the initial (at t=0) current, and i_(2) is steady state (at t=oo) current the battery

In the circuit shown, the currents i_(1) and i_(2) are

CENGAGE PHYSICS-INDUCTANCE-Single correct Answer Type

The current in a coil changes from 3.50 A to 2.00 A in the same direct...
Text Solution
|
A self-induced wmf in a solenoid of inductance L changes in time asvar...
Text Solution
|
The current in a 4.0 mH inductor vaires in time as shown in the figure...
Text Solution
|
An emf 96.0mV is induced in the windings of a coil when the current i...
Text Solution
|
Two coils, held in fixed positions have a mutual inductance of 100muH....
Text Solution
|
Two conducting circular loops of radii R1 and R2 are placed in the sa...
Text Solution
|
A coil of Cu wire (radius r, self-inductance L) is bent in two concen...
Text Solution
|
If in a coil rate of change of area is (5meter^(2))/(milli second)and ...
Text Solution
|
The current through a 4.6 H inductor is shown in the following graph. ...
Text Solution
|
An alternating current of frequency 200 "rad"//sec" and peack value of...
Text Solution
|
The current I in a n inductance coil varies with time, t according to ...
Text Solution
|
When a certain curcuit consisting of a constant e.m.f. E an inductance...
Text Solution
|
Switch S of the circuit shows in Fig is closed at t = 0. If e denotes ...
Text Solution
|
For previous objective, which of the following graph is correct
Text Solution
|
In which of the following circuits is the current maximum just after t...
Text Solution
|
In an LR circuit connected to a battery, the rate at which energy is s...
Text Solution
|
In the circuit diagram shown, R = 10 omega, L = 5 mH, E = 10 V and i =...
Text Solution
|
In the given circuit, let i(1) be the current drawn battery at time t=...
Text Solution
|
Consider the circuit shown in figure. The current through the battery ...
Text Solution
|
In the circuit shown in figure switch S is closed at time t=0. The cha...
Text Solution
|