Resistance in Series/Parallel Connection

Resistance in Series:-

Join Telegram Group

More than one resistances can be connected either in series or in parallel connections. Now if we connect two resistances end on end then they are said to be connected in series.  Let’s take an example: Consider three resistances R1 and R2 be connected in series as shown below:

Series Connection

Now Equivalent resistance of this circuit equals to the sum of individual resistances,let’s prove it now:
In series circuit
(1) Same current flows through each resistance.
(2) Voltage drop across each resistance is different.
(3) Net voltage drop applied across circuit equals the sum of all voltage drops across each resistance

Therefore Vs= V1 + V2 = IR1 + IR2

Since Vs= IR 
(R is the equivalent resistance of circuit)

Then      IR = IR1 + IR2
              IR = I (R1+R2)
Cancelling out I from both sides we get

                  R = R1 + R2

My Youtube Channel

Series & Parallel connections of resistor

Electrical Stuff 4u

Resistances in Parallel:-

As shown In below figure Resistances are said to be connected in Parallel connection.

In parallel circuit 
(1) Potential difference across all resistances is same.
(2) Current flowing through each resistance is different.
(3) Net current flowing through circuit is sum of three currents.


             I = t1 + t2 + t3  = V/r1 + V/r2 + V/r3

             Also I = V/R
where V is the voltage applied and R is the equivalent resistance of circuit

              So V/R =  V/r1 + V/r2 + V/r3

                    1/R = 1/r1 + 1/r2 + 1/r3

Also read:

Transformer MCQ

Why we need Transformer

1 thought on “Resistance in Series/Parallel Connection”

  1. I am not ѕure where you are getting your infoгmation, but good topic.
    I needs to spend some time learning more or understanding more.
    Thanks for magnificent information I was looking for this Ñ–nfo
    for my mission.

Leave a Comment

Your email address will not be published. Required fields are marked *