Electrodynamics/Kirchoff's Laws: Difference between revisions

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imported>Guy vandegrift
I tried to clean up the prose a bit. It still needs work. See discussion.
 
(No difference)

Latest revision as of 22:34, 16 June 2020

Application of the loop law requires careful attention to the direction of the current. Starting at ε1 and taking a clockwise path through R1, we have: ε1I1R1ε2+I2R2=0.. The node sign convention is easier to grasp: Here,I1+I2=I3.

Two laws by Kirchoff are commonly used in circuit analysis. The first is known as Kirchoff's current law, and the second one is Kirchoff's voltage law.


Kirchoff's Current Law

Kirchoff's Current Law states that the sum of the currents entering a wikt:node (the point where two or more circuit elements meet) is equal to zero, with the understanding that current flowing out of a node represents a negative number. An equivalent statement of the law is that or the sum of all currents leaving the node equals the sum of all currents entering the node. This law is in fact a statement of the conservation of charge in a circuit.

Kirchoff's Second Law

Kirchoff's Voltage Law states that the sum of the voltages\potential differences in a loop or mesh equals zero. This law is a statement of the conservation of energy, because 1 volt represents the energy associated with one unit of charge passing through that point.

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