9. For the given circuit, find (a) the total resistance, (b) each branch current, and (c) the total current.

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I need answer for 10. the 2nd pic is the reference for how it's being taught to us

9. For the given circuit, find (a) the total resistance,
(b) each branch current, and (c) the total
curent.
v - 12 v
R, 20 a
R$ 30 a
10. Find I3 in the parallel circuit using current divider.
, 9% mA
R,3 sa
R. 10 A
Transcribed Image Text:9. For the given circuit, find (a) the total resistance, (b) each branch current, and (c) the total curent. v - 12 v R, 20 a R$ 30 a 10. Find I3 in the parallel circuit using current divider. , 9% mA R,3 sa R. 10 A
> To determine the voltage across each resistor;
Ohm's Law
R1
R2
a
Vị = iR1,
V2 = iR2
ww
Substitute
V
i =
Reg
V
%3D
R1 + R2
R1
. V, =
R1 + R2
R2
. V2 =
R1 + R2
V
b
Note that source voltage v is divided among the resistors in direct proportion to their
resistances
This is regarded as the principle of voltage division
In general, if a voltage supply has N resistors in series with the source voltage v, the
nth resistor (Rn) can be expressed as:
Rn
Vn =
R1 + R2 + …+ RN
VI. Parallel Resistors and Current Division
> What is Parallel?
Two or more elements are in parallel if they are connected to the same two nods
and consequently have the same voltages across them.
The equivalent resistance o 2 parallel resistors is equal to the product of their
resistance divided by their sum.
Node a
1
=-+
R1' R2
R,R2
1
Req
Req
R1 + R2
R1
R2
Generally, the equivalent resistance of
a circuit with N resistors in parallel is:
1
1
=-+
R1' R2
1
Node b
Reg
+...+
RN
The current in a parallel circuit is equivalent to the summation of all branch currents
in the circuit
i = leq = I1 + 12 + …+ In
The resistance voltages are each equal to the source voltage of the parallel circuit.
V = Veg = V1 = V2 = = VN
> To determine the current through each resistor
Ohm's Law
i̟ =
iz =
Substitute
iR, R2
v = iReq
R3+R2
iR2
. i, =
R1 + R2
iR1
. i2 =
R1 + R2
Note that the total current i is shared by the resistors in inverse proportion to their
resistances.
This is regarded as the principle of current division
Generally
Reg
in = ieq
Rn
Transcribed Image Text:> To determine the voltage across each resistor; Ohm's Law R1 R2 a Vị = iR1, V2 = iR2 ww Substitute V i = Reg V %3D R1 + R2 R1 . V, = R1 + R2 R2 . V2 = R1 + R2 V b Note that source voltage v is divided among the resistors in direct proportion to their resistances This is regarded as the principle of voltage division In general, if a voltage supply has N resistors in series with the source voltage v, the nth resistor (Rn) can be expressed as: Rn Vn = R1 + R2 + …+ RN VI. Parallel Resistors and Current Division > What is Parallel? Two or more elements are in parallel if they are connected to the same two nods and consequently have the same voltages across them. The equivalent resistance o 2 parallel resistors is equal to the product of their resistance divided by their sum. Node a 1 =-+ R1' R2 R,R2 1 Req Req R1 + R2 R1 R2 Generally, the equivalent resistance of a circuit with N resistors in parallel is: 1 1 =-+ R1' R2 1 Node b Reg +...+ RN The current in a parallel circuit is equivalent to the summation of all branch currents in the circuit i = leq = I1 + 12 + …+ In The resistance voltages are each equal to the source voltage of the parallel circuit. V = Veg = V1 = V2 = = VN > To determine the current through each resistor Ohm's Law i̟ = iz = Substitute iR, R2 v = iReq R3+R2 iR2 . i, = R1 + R2 iR1 . i2 = R1 + R2 Note that the total current i is shared by the resistors in inverse proportion to their resistances. This is regarded as the principle of current division Generally Reg in = ieq Rn
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