Airforce X Y / Indian Navy SSR Exam  >  Airforce X Y / Indian Navy SSR Notes  >  DC Pandey Solutions: Electromagnetic Induction - 1

DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR PDF Download

Introductory Exercise 24.1

Ques 1: Figure shows a conducting loop placed near a long straight wire carrying a current i as shown. If the current increases continuously, find the direction of the induced current in the loop.
DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR
Sol:
magnetic field passing through loop is increasing. Hence induced current will produce magnetic field. So, induced current should be anti-clockwise.

Ques 2: A metallic loop is placed in a nonuniform steady magnetic field. Will an emf be induced in the loop?
Sol:
It is true that magnetic flux passing through the loop is calculated by integration. But it remains constant.

Ques 3: Write the dimensions of DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR
Sol: 
DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR =  [Potential or EMF]
= [ML2A-1T-3]

Introductory Exercise 24.2

Ques 1: A triangular loop is placed in a dot DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR magnetic field as shown in figure. Find the direction of induced current in the loop if magnetic field is increasing.
DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR
Sol: 
DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR is increasing. Hence DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR is produced by the induced current. So, it is clockwise.

Ques 2: A rectangular loop is placed near a current carrying straight wire as shown in figure. If the loop is rotated about an axis passing through one of its sides, find the direction of induced current in the loop.
DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR
Sol:
Magnetic lines around the straight wire are circular. So, same magnetic lines will pass through loop under all conditions.
ΔΦ = 0 ⇒    emf = 0 ⇒ i = 0

Ques 3: Two circular loops lie side by side in the same plane. One is connected to a source that supplies an increasing current, the other is a simple closed ring. Is the induced current in the ring is in the same direction as that in the loop connected to the source or opposite? What if the current in the first loop is decreasing?
Sol: 
By increasing the current in loop-1 magnetic field in ring-2 in downward direct ion will increase. Hence induced current in ring-2 should produce upward magnetic field. Or current in ring should be in the same direction.
DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR

Introductory Exercise 24.3

Ques 1: A loop of wire enclosing an area S is placed in a region where the magnetic field is perpendicular to the plane. The magnetic field DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR varies wit h time according to the expression B = B0e-at where a is so me constant. That is, at t = 0. The field is B0 and for t > 0, the field decreases exponentially. Find the induced emf in the loop as a function of time.
Sol: 

DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR

Ques 2: As the bar shown in figure moves in a direct ion perpendicular to the field, is an external force required to keep it moving with constant speed.
DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR
Sol: Circuit is not closed. So, current is zero or magnetic force is zero.

Ques 3: A coil formed by wrapping 50 turns of wire in the shape of a square is positioned in a magnetic field so that the normal to the plane of the coil makes an angle of 30°, with the direction of the field. When the magnetic field is increased uniformly from 200 μT to 600 μT in 0.4 s, an emf of magnitude 80.0 mV is induced in the coil. What is the total length of the wire?
Sol:
 DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR
DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR
Side of square = 1.36 m Total length of wire = 50 (4 × 1.36) = 272 m

Ques 4: The long straight wire in figure (a) carries a constant current i. A metal bar of length l is moving at constant velocity v as shown in figure. Point a is a distance d from the wire.
 DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR
(a) Calculate the emf induced in the bar.
(b) Which point a or b is at higher potential?
(c) If the bar is replaced by a rectangular wire loop of resistance R, what is the magnitude of current induced in the loop?
Sol: 
(a) At a distance x from the wire magnet ic field over the wire ab is
DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR
DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR
(b) Magnetic field due to current i over the wire ab is inwards. Velocity of wire ab is towards right. Applying right hand rule we can see that a point is at higher potential.
(c) Net change in flux through the loop abcd is zero.
Hence induced emf is zero. So, induced current is zero.

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FAQs on DC Pandey Solutions: Electromagnetic Induction - 1 - Airforce X Y / Indian Navy SSR

1. What is electromagnetic induction?
Ans. Electromagnetic induction is the process of generating an electromotive force (EMF) or voltage in a conductor when it is exposed to a changing magnetic field. This phenomenon was discovered by Michael Faraday in the early 19th century and is the fundamental principle behind the functioning of electrical generators and transformers.
2. How does electromagnetic induction work?
Ans. Electromagnetic induction works based on the principle of Faraday's law of electromagnetic induction. When a conductor is exposed to a changing magnetic field, the magnetic field lines cut across the conductor, inducing an EMF or voltage in it. This induced voltage can then drive an electric current through the conductor, allowing for the transfer of electrical energy.
3. What are the applications of electromagnetic induction?
Ans. Electromagnetic induction has numerous practical applications in our daily lives. Some of the key applications include electrical generators, transformers, induction cooktops, magnetic levitation trains, wireless charging, and electromagnetic braking systems. It is also the underlying principle behind the functioning of many electrical devices and systems.
4. What is Lenz's law in electromagnetic induction?
Ans. Lenz's law is a basic principle in electromagnetic induction that states that the direction of the induced current in a conductor will always be such that it opposes the change in magnetic field that produced it. This law helps to explain why electromagnetic induction obeys the conservation of energy and plays a crucial role in determining the direction of induced currents in various applications.
5. How can electromagnetic induction be used to generate electricity?
Ans. Electromagnetic induction is the basis for generating electricity in electrical generators. A generator consists of a rotating coil of wire, called an armature, placed within a magnetic field. As the armature rotates, the changing magnetic field induces an EMF in the coil, causing a current to flow. This current can then be harnessed and used as a source of electrical power.
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