Phys102 Lecture 12 Kirchhoff’s Rules

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Phys102 Lecture 12 Kirchhoff’s Rules Key Points Kirchhoff’s Junction Rule Kirchhoff’s Loop Rule Solving Linear Algebraic Equations References 19-3.

Kirchhoff’s Rules Some circuits cannot be broken down into series and parallel connections. For these circuits we use Kirchhoff’s rules. Figure 26-11. Currents can be calculated using Kirchhoff’s rules.

19-3 Kirchhoff’s Rules Junction rule: The sum of currents entering a junction equals the sum of the currents leaving it. It’s a consequence of charge conservation.

19-3 Kirchhoff’s Rules Loop rule: The sum of the changes in potential around a closed loop is zero. It’s a consequence of energy conservation. Figure 26-12. Changes in potential around the circuit in (a) are plotted in (b). +: potential increase -: potential decrease

19-3 Kirchhoff’s Rules Problem Solving: Kirchhoff’s Rules Label each current, including its direction. Identify unknowns. Apply junction and loop rules; you will need as many independent equations as there are unknowns. Solve the equations, being careful with signs. If the solution for a current is negative, that current is in the opposite direction from the one you have chosen.

Example: Using Kirchhoff’s rules. Calculate the currents I1, I2, and I3 in the three branches of the circuit in the figure. Solution: You will have two loop rules and one junction rule (there are two junctions but they both give the same rule, and only 2 of the 3 possible loop equations are independent). Algebraic manipulation will give I1 = -0.87 A, I2 = 2.6 A, and I3 = 1.7 A.