As tow resistors are connected in series, the current flowing through both the resistors is same, i.e. I. Then applying KVL, we get,
V= I R1 +I R2
Total voltage applied is equal to the sum of voltage drops VR1 and VR2 across R1 and R2 respectively.
... VR1 = I R1
Similarly, VR2 = I R2
So this circuit is a voltage divider circuit.
Key point : So in general, voltage drop across any resistor, or combination of resistors, in a series circuit is equal to the ratio of that resistance value to the total resistance, multiplied by the source voltage.
Example : Find the voltage across the three resistances shown in the Fig.
Solution :
Key point : It can be seen that voltage across any resistance of series circuit is ratio of that resistance to the total resistance, multiplied by the source voltage.
Example : Find the voltage across the three resistances shown in the Fig.
Solution :
Key point : It can be seen that voltage across any resistance of series circuit is ratio of that resistance to the total resistance, multiplied by the source voltage.