Because the symbol I was already in common use to represent the amount of current in a circuit.
You may ask then why was the symbol I chosen to represent current? Well because the symbol C had already been adopted to represent Capacitance!
Go figure!
Heinrich Lenz
It doesn't. the impedance of the inductor will, following the rule j*w*l, where l is inductance, w is frequency in radians and j is the imaginary number designating this a reactance, not resistance.
AnswerInductances add in series, so the formula is simply L=L1+L2. Inductance is handled in the same manner as resistance in serial and parallel circuits.
The impedance of a component (inductor or capacitor) will change with frequency - resistor impedances will not. Inductor impedance - j*w*L Capacitor impedance - 1/(j*w*C) L = inductance, C = capacitance, j = i = imaginary number, w = frequency in radians The actual inductance and capacitance does not change with frequency, only the impedance.
we can find the value of inductance varying two varient resistance r & R by stoping the voic of beep in anderson's bridge then L=CR(Q+2r) here C & Q are fixed capicitance & resistance in bridge..........
= Zo = sqrt(L/C) = sqrt(0.294e-3/60e-12) ~ 2214 ohms =
Though the unit of inductance is the Henry, it is often symbolized by the letter "L".
The letter L (written in uppercase) is used as a symbol for inductance. If you mean the letter I (uppercase i), that refers to current.
It is represented by l.
Since we know that inductance of an inductor depends on the length of inductor by the formula L=muAN*N/l, where l is the length of inductor. So by varying the length of inductor we say that inductance of inductor varies.
L= un2 A/l
It is represented by the letter L.
L=-e*intigral of i dt.
The term 'inductance' was coined by Oliver Heaviside in February 1886.[1] It is customary to use the symbol L for inductance, possibly in honour of the physicist Heinrich Lenz.
So that it is not confused for the number 1 or the letter "I."
It doesn't. the impedance of the inductor will, following the rule j*w*l, where l is inductance, w is frequency in radians and j is the imaginary number designating this a reactance, not resistance.
Christopher L. Holloway has written: 'Analysis and calculations of the ground plane inductance associated with a printed circuit board' -- subject(s): Inductance, Printed circuits
It is only represented by L or Litre.