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Chapter 32 Inductance

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b) M = 3.946 E -4 H. c) max flux? I2 = Iosin ?t , ? = 2 pf (angular freq.)=6.28E 6 ... b)if 2m long 2cm radius and 2000 turns? ... – PowerPoint PPT presentation

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Title: Chapter 32 Inductance


1
Chapter 32 Inductance
  • PHYS 2326-21

2
Concepts to Know
  • Self Induction
  • Mutual Inductance
  • Inductors
  • Magnetic Field Energy
  • RL Circuit
  • LC Circuit
  • LRC Circuit

3
Self Induction
  • Must distinguish between emf from sources like a
    battery and induced emf from changing magnetic
    fields

4
Mutual Inductance
  • Magnetic flux variation in one circuit can cause
    a magnetic flux variation in another circuit.
    Note that this can be by intention or by
    accident.
  • By intention, one can have a transformer
  • By accident, one relay might cause another relay
    to close or open. or noise to be injected in one
    circuit by another

5
Mutual Inductance
  • emf2 -N2 dF12/dt -N2 d(M12 I1/N2)/dt
  • -M12 dI1/dt , so emf1 -M21 dI2/dt
  • Note that also M12 M21 M
  • That is a current in coil 1 generates current in
    coil 2 and a current in coil 2 generates a
    current in coil 1

6
Inductor
  • An inductor is a circuit element that primarily
    has large inductance
  • It can be a solenoid valve, or relay or even
    merely a component intended to provide inductance
    to a circuit for some purpose
  • Inductors are subject to Lenzs law which states
    that with a changing magnetic field, there will
    be an action taken to oppose that change

7
Magnetic Field Energy
  • Given an applied emf across an inductor in series
    with a resistance,

8
Transformer
  • A transformer is two coils with total mutual
    induction Read Chapter 33.8

9
Permeability
  • Amperes law applied to a toroid
  • Note that the magnetic field B depends upon µo
    the permeability of free space. This is for the
    area in the torus that the winding goes around
  • What happens if its not a vacuum?
  • Most transformers and solenoids have metal cores
    in the coils

10
Permeability
  • Note this doesnt seem to even be in this text
    book
  • In the same concept as with dielectrics for
    capacitors there is a magnetic equivalent to the
    dielectric constant Km B/Bo relative
    permeability
  • Note though that K for dielectrics ranged from 1
    for a vacuum upwards to ??
  • Km is 1 for a vacuum, gt 1 for paramagnetic
    materials, slightly smaller than 1 for
    diagmagnetic materials and gtgt 1 for ferromagnetic
    materials

11
Permeability
  • µ µo Km is the permeability of a material

12
Example 1
  • Tesla coil has N1 turns along length l of a
    hollow tube and a second coil of N2 what is a)
    the mutual inductance b) if N110,000 and N2
    100, l 1m, radius 1cm what is the value of M?
    c) if a radio frequency of 1000 KHz is sent
    through coil 2 so that current oscillates with
    amplitude of 100ma what is the average magnetic
    flux through coil1 d)max current through coil1
    e)max induced emf in coil1 f)back emf in coil 1?

13
Example 1
  • M N2 FB2 /I1, FB2 FB1 B1A
  • A pr2 3.14(0.01)2 0.000314 m2
  • B1µo N1 I1/l substituting for B1
  • M (µo N1 I1/l ) N2 A / I1 µo N2 N1 A I1 / l
  • b) M 3.946 E -4 H
  • c) max flux?
  • I2 Iosin ?t , ? 2 pf (angular freq.)6.28E6
  • rearranging M, FB2 FB1 M I2 / N2
  • (3.946E-4)(0.1)/(100) 3.948E-7 Wb

14
Example 1
  • d) coil 1 current I1 I2 N2/N1
    (0.1)(100)/(10,000) 1.0 E-3A
  • e) emf1 -M dI2 /dt , I2 Io sin ?t
  • dI2 /dt Io ? cos ?t
  • emf1 -M Io ? cos ?t
  • emf1max M Io ? (3.948E-4)(0.1)(6.28E6) 248
    V
  • f) emf2max emf1max N2/N1 (248)(100/10,000)
    2.48 V

15
Example 2
  • a) Inductance of a long solenoid length l and
    area A with N turns? b)if 2m long 2cm radius and
    2000 turns? c) if current decreased from 4A to 0
    in 2 microseconds what is magnitude and direction
    of the self induced emf ? d) what is the energy
    stored in the solenoid at the beginning of the 2
    microsecond interval? e) How much electrical
    power is dissipated during this time?

16
Example 2
  • inductance
  • Substituting for B in L

17
  • b) Inductance value
  • A 1.257E-3
  • L (1.2566E-6)(2000)2(1.257E-3)/2.0
  • 3.159E-3 H
  • c) emf?
  • emf (3.159E-3)(4-0)/(2.0E-6) 6318V
  • in direction of current trying to stop field
    collapse by trying to maintain current

18
  • d) Energy?
  • U1 (1/2) (3.158E-3)(4)2 2.52E-2 Joules
  • e) Power
  • P (2.52E-2)/(2E-6) 12,632 W
  • why so high? Its also about timing too

19
RL Circuits
  • Review 32.2

20
LC Circuits
  • Study Chapter 32.5
  • Given a capacitor and an inductor at time t0
    with the capacitor being connected in series to
    the inductor with Qmax charge on it there will be
    an oscillation. If no resistance is there to
    dissipate the energy, it will continue to
    oscillate

21
RLC Circuit
  • Study Chapter 32.6
  • The difference between an LC and RLC circuit
    other than resistance exists in all circuits is
    that R is a dissipative element that absorbs
    energy as current flows
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