Two circular coils can be arranged in an...

Two circular coils can be arranged in any of the three situation shown in the figure. Their mutual inductance will be
, ,

A

maximum in situation (A)

B

maximum in situation (B)

C

maximum in situation (C)

D

the same in all situations

Text Solution

Verified by Experts

The correct Answer is:

A

Mutual inductance between two coils depend on their degree of flux linkage i.e., the fraction of flux linked with one coil which is, when some current passes through the other coil. In figure (A) two coils with their planes are parallel. In this situation, maximum flux passes.

Doubtnut Promotions Banner Desktop Dark

Doubtnut Promotions Banner Mobile Dark

|

Topper's Solved these Questions

ELECTROMAGNETIC INDUCTION
DC PANDEY ENGLISH|Exercise Medical entrance special format questions|17 Videos
ELECTROMAGNETIC INDUCTION
DC PANDEY ENGLISH|Exercise Match the columns|5 Videos
ELECTROMAGNETIC INDUCTION
DC PANDEY ENGLISH|Exercise Check point|60 Videos
CURRENT ELECTRICITY
DC PANDEY ENGLISH|Exercise Medical entrances gallery|97 Videos
ELECTROMAGNETIC WAVES
DC PANDEY ENGLISH|Exercise Sec C|22 Videos

Similar Questions

Explore conceptually related problems

Two circular coils can be arranged in any of the three situations shown in the figure. Their mutual inductance will be

Two circular coils can be arranged in any of three situations shown in the figure. Their mutual inductance will be (a) (b )(##AAK_MCP_32_NEET_PHY_E32_012_Q02.png" width="80%"> (c)

The situation shown in figure is equivalent to

The situation shown in figure is equivalent to

Two concentric co - planar circular loops of radius R and r (lt lt R) are placed as shown in the figure. The mutual inductance of the system will be

Two circular coils A and B are facing each other as shown in figure. The current i through A can be altered

Two circular coils A and B are facing each other as shown in figure. The current i through A can be altered

Two circular coils A and B are facing each other in shown figure. The current I through A can be alterned

The direction of induced currnet in the coils A and B in the situation shown in the figure is

Two circular coils have their centres at the same point. The mutual inductance between them will be maximum when their axes

DC PANDEY ENGLISH-ELECTROMAGNETIC INDUCTION-Taking it together

A coil of wire of a certain radius has 600 turns and a self-inductance...
02:20
|
The current carrying wire and the rod AB are in the same plane. The ro...
01:31
|
Two circular coils can be arranged in any of the three situation shown...
05:00
|
A coil of inductance 300mh and resistance 2Omega is connected to a sou...
02:35
|
An inductor of 2 H and a resistance of 10Omega are connects in series ...
03:02
|
In the circuit shown in the figure, what is the value of I(1) just aft...
01:40
|
In the circuit shown in Fig. currrent through the battery at t = 0 and...
03:15
|
A time varying voltage V= 2t (Volt) is applied across and ideal induct...
03:19
|
The network shown in the figure is part of a complete circuit. If at a...
01:44
|
Switch S of the circuit shows in Fig is closed at t = 0. If e denotes ...
02:35
|
Coefficient of coupling between two coils of self-inductances L(1) and...
01:59
|
A square loop ABCD of edge a moves to the right with a velocity v para...
06:27
|
A rectangular, a square , a circular and an elliptical loop, all in th...
04:13
|
A magnet N-S is suspended from a spring and while at oscillates, the m...
02:03
|
A coil is suspended in a uniform magnetic field, with the plane of the...
07:13
|
The conducting circular loops of radii R(1) and R(2) are placed in the...
02:37
|
A short-circuited coil is placed in a time-varying magnetic field. Ele...
02:21
|
The variation of induced emf (epsilon ) with time (t) in a coil if a s...
02:24
|
The current i in an inductionn coil varies with time t according to th...
03:41
|
When a battery is connected across a series combination of self induct...
01:50
|