Answered

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b)= combined resistance of the 2 Ω and 4 Ω resistors connected in series

B Combined Resistance Of The 2 Ω And 4 Ω Resistors Connected In Series class=

Sagot :

R1=6 Ω

R2=3 Ω

R3=2 Ω

R4=4 Ω

6 Ω and 3Ω resistances are connected in parallel.

First, find the equivalent resistance:

ER1 = R1*R2/(R1+R2)= 6*3/6+3 = 18/9 =

The resistances of 2 Ω and 4 Ω are connected in series:

TR2 = R3+R4 = 2 Ω+4 Ω= 6 Ω (b)

ER1 and TR2 are connected in parallel.

RT = ER1*TR2/ ER1+TR2= 2*6/2+6=12/8 = 1.5 Ω

Now, we can calculate the I (current)

On parallel circuits, Voltage is always the same. (12V)

But for series is VT=V1+V2

We have to find the current flowing across R3 and R4 (TR2)

V= I*R

I= V/R = 12/TR2= 12/6 = 2 A

With that current, we can calculate the voltage (potential difference) on R3 (2 Ω)

V=I*R= 2*2 = 4V (ai)

(aii) potential difference across the 3 Ω resistor

Since it is a parallel circuit , potential difference is always the same = 12V

b.combined resistance of the 2 Ω and 4 Ω resistors connected in series

R3+R4 = 2 Ω+4 Ω= 6 Ω (b)

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