Question
Question: In the electric circuit shown in figure, current flowing through \(4\Omega \) resistor is :  3A
(B) 2A
(C) 1A
(D) 4A
Solution
Hint
In the given circuit, to find the current through the 4Ω resistor, we need to first find the equivalent resistance in the circuit. Then by dividing the potential with the equivalent resistance we will get the current in the circuit.
In this solution we will be using the following formula,
⇒Req=R1+R2+R3+.... where Req is the equivalent resistance when the resistances are placed in series.
And Req1=R11+R21+R31+.... where Req is the equivalent resistance when the resistances are placed in a parallel circuit.
and V=IR where V is the potential across the battery, I is the current, R is the resistance.
Complete step by step answer
To find the current in the circuit, we need to first calculate the equivalent resistance in the circuit. From the diagram we can see that two resistances of 8Ω each are connected in parallel and with the equivalent of those two resistances we have a 4Ω resistor in series. So we need to first find the equivalent resistance of the parallel resistances,
It is given by the formula,
⇒Req1=R11+R21+R31+....
Where we have R1=R2=8Ω
Therefore we can write,
⇒Req1=81+81
Therefore, by taking the LCM as 8,
⇒Req1=81+1=82
Hence we can cancel the 2 from numerator and denominator and then get the equivalent resistance by taking the inverse as,
⇒Req=4Ω
In the circuit diagram, we have a 4Ω resistor in series with the parallel resistances, therefore, the equivalent resistance in the whole circuit can found by,
⇒Req=R1+R2+R3+....
By substituting R1=R2=4Ω, we have
⇒R=(4+4)Ω
Therefore the total resistance is, R=8Ω
Now in the diagram, the potential across the cell is given as 8V.
So from the Ohm’s law, the current will be given by the formula,
⇒I=RV
So substituting the values, I=88A
Therefore we get, ⇒I=1A
This is the current that is flowing through the 4Ω resistor. So the answer will be ⇒1A.
Therefore, the correct option will be (C).
Note
The current that will be coming from the cell will flow through the 4Ω resistor. But when it reaches the 8Ω resistances, the current will get divided into two paths and hence the current in each of the wires will be proportional to the resistances in them. Since the resistances are equal so the current in each wire will be 0.5A each.