SERIES
-only having
one path
for the charges
Consider Circuit A with two resistor
R1 and R2 connected in series:
By KVL
VT = V1 + V2
Or
VT = IR1 + IR2
And, consider an equivalent
Circuit B with one resistor RT:
By Ohm's Law
VT = IRT
But for equivalent circuits, I is the same
for circuit A and circuit B.
Thus
VT = IR1 + IR2 = IRT
Yielding
R1 + R2 = RT
So, the equivalent total resistance for
resistor in series is simply the
sum of the individual resistors.
RT = R1 + R2 + R3 + . . . . . . . RN
Also note from circuit A that:
V2 = IR2
I = VT/RT
Thus V2 = VT(R2)/RT
Where RT = R1 + R2
This is called the VOLTAGE DIVIDER RULE
Usually written:
VX = VT(RX)/RT
PARALLEL
- from having multiple paths
for current to flow through
so, the total equivalent resistance
of the resistors in parallel
connection
is:
NOTE:
I2 = V/R2
V = ITRT
Thus I2 = IT(RT)/R2
Where 1/RT = 1/R1 + 1/R2
This is called the CURRENT
DIVIDER RULE
Usually written:
IX = IT(RT)/RX
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