Wheatstone Bridge - Circuit Diagram, Working principle

This bridge was first introduced by Wheatstone for measuring the value of unknown resistance. 
Wheatstone bridge circuit consists of four resistors, two with known resistances P & Q and one known variable resistance R and one unknown resistor X whose value is to be calculated. 

All four resistors are connected in a manner to form a diamond-like shape circuit ABCDA as shown in the Wheatstone Bridge circuit diagram. 

Across one pair of opposite junction A&C battery is connected and across other junction B & D a galvanometer is connected and key K is connected in series with galvanometer as shown in the diagram. 

This circuit is called a bridge because the galvanometer bridges the opposite junction B & D. 

Working Principle of Wheatstone Bridge

Working principle of this bridge is base on null deflection.  When bridge is bridge is balanced, ratio of their resistances are equal and no current flows through galvanometer.

Consider I1 and I2 are the currents that pass through P & R respectively. 
When the bridge is balanced no current passes through the galvanometer. Current in resistor Q & X are  I1 and I2 because B & D are at equipotential and galvanometer read zero voltage.

Hence voltage drop across branch A to B and A to D must be equal also voltage drop across branch B to C and D to C must be equal. 

I1P= I2R and  I1Q=I2X

This is the formula of Wheatstone Bridge to calculate the value of the unknown resistor. 

Hence, when the bridge is balanced the product of the resistances of opposite branches of the bridge are equal. 

Wheatstone Bridge Application

  • This bridge is used for the precise measurement of low resistance.
  • Wheatstone bridge along with an O AMP (operational amplifier)  is used to measure temperature, light, and strain.
  • capacitance, inductance, impedance can also be calculated using this bridge.
  • light detector circuit can be constructed using the Wheatstone bridge.


  • For low resistance measurement, the resistance of the wires and contacts becomes significant and introduces an error in measurement.
  • This bridge can be used to measure resistance ranging from a few ohms to megaohms and is not suitable to measure very large resistance because galvanometer becomes insensitive in such cases.
  • The other drawback is the change in the resistance due to the heating effect of the resistor because of the heavy current flowing through it leads to error in measurement. 
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