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Transcript 
INDUCTANCE
When the current in a loop if wire changes with time, an emf
is induced in the loop according to Faraday’s law. The selfinduced emf is
Ɛ= -L(dI/dt)
Where L is the inductance of the loop. Inductance is
measure of how much opposition a loop offers to a change in
the current in the loop. Inductance has the SI unit of henry
(H), where 1 H= 1 V(s/A)
The Inductance of any coil is
L= NΦ/I
Where N is the total number of turns and Φ is the magnetic
flux through the coil. The inductance of a device depends on
its geometry. For example, the inductance of an air-core
solenoid is
Where l is the length of the solenoid and A is the cross
sectional area.
If a resistor and inductor are connected in series to a
battery of Emf ε at time t=0, the current in the circuit
varies in time according to the expression
I= ε/R[1-et/τ]
Where τ=L/R is the time constant of the RL circuit. If
we replace the battery in the circuit by a resistance wire,
the current decays exponentially with time according to
the expression
I= ε/R[et/τ]
Where ε/R is the initial current in the circuit
The energy stored in the magnetic field of an inductor
carrying a current I is
This energy is the magnetic counterpart to the energy stored
in the electric field of a charged capacitor.
The energy density at a point where the magnetic field is B is
This is used to calculate the energy stored in an inductor
The mutual inductance of a system of two coils is
M12=(N2Φ12)/I1= M21=(N1Φ21)/I2=M
This mutual inductance allows us to relate the induced emf in
a coil to the changing source current in a nearby coil using
the relationships
ε2= - M12(dI1/dt) and ε1= - M21(dI2/dt)
In an LC circuit that has zero resistance and does not radiate
electromagnetically (an idealization), the values of the charge
on the capacitor and the current in the circuit vary
sinusoidaly in time at an angular frequency given by
ω = 1 /[√(LC)]
The energy in an LC circuit continuously transfers between
energy stored in the capacitor and energy stored in the
inductor.
The frequency of an LC circuit is
ƒ = ω/2π = 1/2π√(LC)
In a RLC circuit with small resistance, the charge on the
capacitor varies with time according to
Q=Qmaxe-RT/2Lcosωdt
where
ωd=[ 1/LC – (R/2L)2]1/2
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