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10. MUTUAL INDUCTANCE

Consider two coils P and S placed close to each other as shown in the figure. When the current passing through a coil increases or decreases, the magnetic flux linked with the other coil also changes and an induced e.m.f. is developed in it. This phenomenon is known as mutual induction. This coil in which current is passed is known as primary and the other in which e.m.f. is developed is called as secondary.

Let the current through the primary coil at any instant be i1. Then the magnetic flux Mutual Inductance | Physics for JAMB in the secondary at any time will be proportional to i1 i.e., Mutual Inductance | Physics for JAMB is directly proportional to i1

Therefore the induced e.m.f. in secondary

when i1 changes is given by

Mutual Inductance | Physics for JAMB i.e., Mutual Inductance | Physics for JAMB

Mutual Inductance | Physics for JAMB = Mutual Inductance | Physics for JAMB ⇒ Mutual Inductance | Physics for JAMB = M i1            Mutual Inductance | Physics for JAMB

where M is the constant of proportionality and is known as mutual inductance of two coils. It is defined as the e.m.f. induced in the secondary coil by unit rate of change of current in the primary coil. The unit of mutual inductance is henry (H).

10.1 Mutual Inductance of a Pair of Solenoids one Surrounding the other coil

Figure shows a coil of N2 turns and radius R2 surrounding a long solenoid of length l1, radius R1 and number of turns N1.

Mutual Inductance | Physics for JAMB

To calculate mutual inductance M between them, let us assume a current i1 through the inner solenoid S1

There is no magnetic field outside the solenoid and the field inside has magnitude,

Mutual Inductance | Physics for JAMB

and is directed parallel to the solenoid's axis. The magnetic flux Mutual Inductance | Physics for JAMB through the surrounding coil is, therefore,

Mutual Inductance | Physics for JAMB

Now, Mutual Inductance | Physics for JAMB

Notice that M is independent of the radius R2 of the surrounding coil. This is because solenoid's magnetic field is confined to its interior.

Brain Teaser

What is the meaning of the statement "The coefficient of mutual inductance for a pair of coils is large" ?

Note : Mutual Inductance | Physics for JAMB

Mutual Inductance | Physics for JAMB For two coils in series if mutual inductance is considered then

Leq = L1 + L2 ± 2M

Ex.48 Find the mutual inductance of two concentric coils of radii a1 and a(a1 << a2) if the planes of coils are same.

Mutual Inductance | Physics for JAMB

Sol. Let a current i flow in coil of radius a2.

Magnetic field at the centre of coil =

or M i = Mutual Inductance | Physics for JAMB or Mutual Inductance | Physics for JAMB

Ex.49 Solve the above question, if the planes of coil are perpendicular.

Sol. Let a current i flow in the coil of radius a1. The magnetic field at the centre of this coil will now be parallel to the plane of smaller coil and hence no flux will pass through it, hence M = 0

Ex.50 Solve the above problem if the planes of coils make θ angle with each other.

Sol. If i current flows in the larger coil, magnetic field produced at the centre will be perpendicular to the plane of larger coil.

Now the area vector of smaller coil which is perpendicular to the plane of smaller coil will make an angle θ with the magnetic field.

Thus flux = Mutual Inductance | Physics for JAMB. πa12 cos θ

or M = Mutual Inductance | Physics for JAMB

Ex.51 Find the mutual inductance between two rectangular loops, shown in figure.

Mutual Inductance | Physics for JAMB

Sol. Let current i flow in the loop having ∞-by long sides. Consider a segment of width dx at a distance x as shown flux through the regent

Mutual Inductance | Physics for JAMB

dMutual Inductance | Physics for JAMBMutual Inductance | Physics for JAMB

⇒ Mutual Inductance | Physics for JAMB = Mutual Inductance | Physics for JAMB

Mutual Inductance | Physics for JAMB

Ex.52 Figure shows two concentric coplanar coils with radii a and b (a << b). A current i = 2t flows in the smaller loop. Neglecting self inductance of larger loop

Mutual Inductance | Physics for JAMB

(a) Find the mutual inductance of the two coils

(b) Find the emf induced in the larger coil

(c) If the resistance of the larger loop is R find the current in it as a function of time

Sol. (a) To find mutual inductance, it does not matter in which coil we consider current and in which flux is calculated (Reciprocity theorem) Let current i be flowing in the larger coil. Magnetic field at the centre = Mutual Inductance | Physics for JAMB.

flux through the smaller coil = Mutual Inductance | Physics for JAMB

Therefore, M = Mutual Inductance | Physics for JAMB

(ii) |emf induced in larger coil| = Mutual Inductance | Physics for JAMB

Mutual Inductance | Physics for JAMB = Mutual Inductance | Physics for JAMB

(iii) current in the larger coil = Mutual Inductance | Physics for JAMB

Ex.53 If the current in the inner loop changes according to i = 2t2 then, find the current in the capacitor as a function of time.

Mutual Inductance | Physics for JAMB

Sol. M = Mutual Inductance | Physics for JAMB

|emf induced in larger coil| = Mutual Inductance | Physics for JAMB

e = Mutual Inductance | Physics for JAMB = Mutual Inductance | Physics for JAMB    Mutual Inductance | Physics for JAMB

Applying KVL : -

+e - Mutual Inductance | Physics for JAMB - iR = 0 ⇒ Mutual Inductance | Physics for JAMB - -iR = 0

differentiate wrt time : Mutual Inductance | Physics for JAMB - Mutual Inductance | Physics for JAMB - Mutual Inductance | Physics for JAMBon solving it i = Mutual Inductance | Physics for JAMB

11. Series Combination of Inductors

Mutual Inductance | Physics for JAMB = Mutual Inductance | Physics for JAMB

Therefore, V = V1 + V2

Mutual Inductance | Physics for JAMB

L = L1 + L2 +.................

Parallel Combination of inductor

i = i1 + i2 ⇒ Mutual Inductance | Physics for JAMB     Mutual Inductance | Physics for JAMB

Mutual Inductance | Physics for JAMB

Mutual Inductance | Physics for JAMB

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FAQs on Mutual Inductance - Physics for JAMB

1. What is mutual inductance?
Ans. Mutual inductance is the phenomenon that occurs when the change in current in one coil induces an electromotive force (EMF) in another nearby coil.
2. How is mutual inductance calculated?
Ans. Mutual inductance (M) can be calculated by dividing the induced EMF (V2) in the secondary coil by the rate of change of current (di1/dt) in the primary coil, i.e., M = V2 / (di1/dt).
3. What are some real-life applications of mutual inductance?
Ans. Mutual inductance is widely used in various applications, including transformers, electric motors, generators, and wireless power transfer systems.
4. How does mutual inductance affect the efficiency of transformers?
Ans. Mutual inductance plays a crucial role in the efficiency of transformers. It allows for the transfer of electrical energy between the primary and secondary coils with minimal losses, resulting in efficient power transmission.
5. How does mutual inductance differ from self-inductance?
Ans. Mutual inductance involves the interaction between two or more coils, where the change in current in one coil induces an EMF in another coil. On the other hand, self-inductance refers to the phenomenon where a changing current in a coil induces an EMF in the same coil itself.
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