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Electromagnetic induction PPT Physics Class 12

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 Page 1


ELECTROMAGNETIC INDUCTION
1. Magnetic Flux
2. Faraday’s Experiments
3. Faraday’s Laws of Electromagnetic Induction
4. Lenz’s Law and Law of Conservation of Energy
5. Expression for Induced emf based on both laws
6. Methods of producing induced emf
a) By changing Magnetic Field
b) By changing the Area of the Coil (Motional emf)
c) By changing the Relative Orientation of the coil with 
the Magnetic Field
7. Eddy Currents
8. Self Induction and Self Inductance
9. Mutual Induction and Mutual Inductance
10. Additional Information
Page 2


ELECTROMAGNETIC INDUCTION
1. Magnetic Flux
2. Faraday’s Experiments
3. Faraday’s Laws of Electromagnetic Induction
4. Lenz’s Law and Law of Conservation of Energy
5. Expression for Induced emf based on both laws
6. Methods of producing induced emf
a) By changing Magnetic Field
b) By changing the Area of the Coil (Motional emf)
c) By changing the Relative Orientation of the coil with 
the Magnetic Field
7. Eddy Currents
8. Self Induction and Self Inductance
9. Mutual Induction and Mutual Inductance
10. Additional Information
?
Magnetic Flux (F):
Magnetic Flux through any surface is the number of magnetic lines of force 
passing normally through that surface.
It can also be defined as the product of the area of the surface and the 
component of the magnetic field normal to that surface.
ds
n
B
B cos ?
dF = B . ds cos ?
F = B . A = B.A.n
F = B . A cos ?
Positive Flux:                                                                                                
Magnetic Flux is positive for 0° = ? < 90° & 270° < ? = 360°
Zero Flux: 
Magnetic Flux is zero for ? = 90° & ? = 270°
Negative Flux: 
Magnetic Flux is negative for 90° < ? < 270°
Direction of ds is 
along the normal to 
the surface and           
is unit normal 
vector.
n
n
dF = B . ds = B.ds.
Flux is maximum 
when ? = 0° and is
F = B . A
Page 3


ELECTROMAGNETIC INDUCTION
1. Magnetic Flux
2. Faraday’s Experiments
3. Faraday’s Laws of Electromagnetic Induction
4. Lenz’s Law and Law of Conservation of Energy
5. Expression for Induced emf based on both laws
6. Methods of producing induced emf
a) By changing Magnetic Field
b) By changing the Area of the Coil (Motional emf)
c) By changing the Relative Orientation of the coil with 
the Magnetic Field
7. Eddy Currents
8. Self Induction and Self Inductance
9. Mutual Induction and Mutual Inductance
10. Additional Information
?
Magnetic Flux (F):
Magnetic Flux through any surface is the number of magnetic lines of force 
passing normally through that surface.
It can also be defined as the product of the area of the surface and the 
component of the magnetic field normal to that surface.
ds
n
B
B cos ?
dF = B . ds cos ?
F = B . A = B.A.n
F = B . A cos ?
Positive Flux:                                                                                                
Magnetic Flux is positive for 0° = ? < 90° & 270° < ? = 360°
Zero Flux: 
Magnetic Flux is zero for ? = 90° & ? = 270°
Negative Flux: 
Magnetic Flux is negative for 90° < ? < 270°
Direction of ds is 
along the normal to 
the surface and           
is unit normal 
vector.
n
n
dF = B . ds = B.ds.
Flux is maximum 
when ? = 0° and is
F = B . A
*  Magnetic flux is a scalar quantity.
*  SI unit of magnetic flux is weber or tesla-metre
2
or ( wb or Tm
2
).
*  cgs unit of magnetic flux is maxwell.
*  1 maxwell = 10
-8
weber
*  Magnetic flux (associated normally) per unit area is called Magnetic  
Flux Density or Strength of Magnetic Field or Magnetic Induction (B).
Magnetic Flux across a coil can be changed by changing :
1) the strength of the magnetic field B
2) the area of cross section of the coil A
3) the orientation of the coil with magnetic field ? or
4) any of the combination of the above
F = B . A cos ?
Page 4


ELECTROMAGNETIC INDUCTION
1. Magnetic Flux
2. Faraday’s Experiments
3. Faraday’s Laws of Electromagnetic Induction
4. Lenz’s Law and Law of Conservation of Energy
5. Expression for Induced emf based on both laws
6. Methods of producing induced emf
a) By changing Magnetic Field
b) By changing the Area of the Coil (Motional emf)
c) By changing the Relative Orientation of the coil with 
the Magnetic Field
7. Eddy Currents
8. Self Induction and Self Inductance
9. Mutual Induction and Mutual Inductance
10. Additional Information
?
Magnetic Flux (F):
Magnetic Flux through any surface is the number of magnetic lines of force 
passing normally through that surface.
It can also be defined as the product of the area of the surface and the 
component of the magnetic field normal to that surface.
ds
n
B
B cos ?
dF = B . ds cos ?
F = B . A = B.A.n
F = B . A cos ?
Positive Flux:                                                                                                
Magnetic Flux is positive for 0° = ? < 90° & 270° < ? = 360°
Zero Flux: 
Magnetic Flux is zero for ? = 90° & ? = 270°
Negative Flux: 
Magnetic Flux is negative for 90° < ? < 270°
Direction of ds is 
along the normal to 
the surface and           
is unit normal 
vector.
n
n
dF = B . ds = B.ds.
Flux is maximum 
when ? = 0° and is
F = B . A
*  Magnetic flux is a scalar quantity.
*  SI unit of magnetic flux is weber or tesla-metre
2
or ( wb or Tm
2
).
*  cgs unit of magnetic flux is maxwell.
*  1 maxwell = 10
-8
weber
*  Magnetic flux (associated normally) per unit area is called Magnetic  
Flux Density or Strength of Magnetic Field or Magnetic Induction (B).
Magnetic Flux across a coil can be changed by changing :
1) the strength of the magnetic field B
2) the area of cross section of the coil A
3) the orientation of the coil with magnetic field ? or
4) any of the combination of the above
F = B . A cos ?
N S
Faraday’s Experiment - 1:
G
N S
G G
G
N S N S
N S N S
Page 5


ELECTROMAGNETIC INDUCTION
1. Magnetic Flux
2. Faraday’s Experiments
3. Faraday’s Laws of Electromagnetic Induction
4. Lenz’s Law and Law of Conservation of Energy
5. Expression for Induced emf based on both laws
6. Methods of producing induced emf
a) By changing Magnetic Field
b) By changing the Area of the Coil (Motional emf)
c) By changing the Relative Orientation of the coil with 
the Magnetic Field
7. Eddy Currents
8. Self Induction and Self Inductance
9. Mutual Induction and Mutual Inductance
10. Additional Information
?
Magnetic Flux (F):
Magnetic Flux through any surface is the number of magnetic lines of force 
passing normally through that surface.
It can also be defined as the product of the area of the surface and the 
component of the magnetic field normal to that surface.
ds
n
B
B cos ?
dF = B . ds cos ?
F = B . A = B.A.n
F = B . A cos ?
Positive Flux:                                                                                                
Magnetic Flux is positive for 0° = ? < 90° & 270° < ? = 360°
Zero Flux: 
Magnetic Flux is zero for ? = 90° & ? = 270°
Negative Flux: 
Magnetic Flux is negative for 90° < ? < 270°
Direction of ds is 
along the normal to 
the surface and           
is unit normal 
vector.
n
n
dF = B . ds = B.ds.
Flux is maximum 
when ? = 0° and is
F = B . A
*  Magnetic flux is a scalar quantity.
*  SI unit of magnetic flux is weber or tesla-metre
2
or ( wb or Tm
2
).
*  cgs unit of magnetic flux is maxwell.
*  1 maxwell = 10
-8
weber
*  Magnetic flux (associated normally) per unit area is called Magnetic  
Flux Density or Strength of Magnetic Field or Magnetic Induction (B).
Magnetic Flux across a coil can be changed by changing :
1) the strength of the magnetic field B
2) the area of cross section of the coil A
3) the orientation of the coil with magnetic field ? or
4) any of the combination of the above
F = B . A cos ?
N S
Faraday’s Experiment - 1:
G
N S
G G
G
N S N S
N S N S
Magnetic flux linked with the coil changes relative to the 
positions of the coil and the magnet due to the magnetic lines of 
force cutting at different angles at the same cross sectional area 
of the coil.
N S
N S
G
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FAQs on Electromagnetic induction PPT Physics Class 12

1. What is electromagnetic induction?
Ans. Electromagnetic induction is the process of generating an electromotive force (emf) or voltage in a conductor by varying the magnetic field around it.
2. How does electromagnetic induction work?
Ans. Electromagnetic induction works based on Faraday's law of electromagnetic induction, which states that when a conductor is exposed to a changing magnetic field, an emf is induced in the conductor, resulting in the flow of current if the circuit is closed.
3. What are the applications of electromagnetic induction?
Ans. Electromagnetic induction has various applications, including power generation in electrical generators, transformers, induction motors, wireless charging, induction heating, and magnetic levitation systems.
4. Can electromagnetic induction be used for wireless power transfer?
Ans. Yes, electromagnetic induction can be used for wireless power transfer. By using resonant inductive coupling, power can be transferred wirelessly between two coils, where one coil is connected to the power source, and the other coil is connected to the receiving device.
5. What are some everyday examples of electromagnetic induction?
Ans. Everyday examples of electromagnetic induction include electric generators in power plants, transformers used in electrical distribution systems, induction cooktops, wireless charging pads for smartphones, and metal detectors.
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