Applications of Kirchoff's law.

Der Student,
 

Kirchhoff's Voltage Law: 
the sum of the emfs in any closed loop is equivalent to the sum of the potential drops in that loop. 
Ea + Eb + Ec + . . . En = 0.

Applications :

  • The  current  distribution in various branches of a circuit can easily be found out by applying Kirchhoff Current law at different nodes or junction points in the circuit. 
  • After that Kirchhoff Voltage law is applied, each possible loop in the circuit generates algebraic equation for every loop. 

By solving all these equations, one can easily find out different unknown currents, voltages and resistances in the circuits.

So it would be helpful in electrical engg while designing circuits.

regards


 

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Kirchhoff's Voltage Law: the sum of the emfs in any closed loop is equivalent to the sum of the potential drops in that loop. Ea + Eb + Ec + . . . En = 0. Applications : 1.The current distribution in various branches of a circuit can easily be found out by applying Kirchhoff Current law at different nodes or junction points in the circuit. 2.After that Kirchhoff Voltage law is applied, each possible loop in the circuit generates algebraic equation for every loop.
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