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Kirchhoff’s Laws of Electric Circuits | Additional Documents & Tests for IIT JAM PDF Download

Two simple relationships can be used to determine the value of currents in circuits. They are useful even in rather complex situations such as circuits with multiple loops. The first relationship deals with currents at a junction of conductors. Figure shows three such junctions, with the currents assumed to flow in the directions indicated.

Kirchhoff’s Laws of Electric Circuits | Additional Documents & Tests for IIT JAM

Figure: Electric currents at a junction (see text).

Simply stated, the sum of currents entering a junction equals the sum of currents leaving that junction. This statement is commonly called Kirchhoff’s first law (after the German physicist Gustav Robert Kirchhoff, who formulated it). For Figure, the sum is i1 + i2 = i3. For Figure, i1 = i2 + i3 + i4. For Figure, i1 + i2 + i3 = 0. If this last equation seems puzzling because all the currents appear to flow in and none flows out, it is because of the choice of directions for the individual currents. In solving a problem, the direction chosen for the currents is arbitrary. Once the problem has been solved, some currents have a positive value, and the direction arbitrarily chosen is the one of the actual current. In the solution some currents may have a negative value, in which case the actual current flows in a direction opposite that of the arbitrary initial choice.
Kirchhoff’s second law is as follows: the sum of electromotive forces in a loop equals the sum of potential drops in the loop. When electromotive forces in a circuit are symbolized as circuit components as in Figure, this law can be stated quite simply: the sum of the potential differences across all the components in a closed loop equals zero. To illustrate and clarify this relation, one can consider a single circuit with two sources of electromotive forces E1 and E2, and two resistances R1 and R2, as shown in Figure. The direction chosen for the current i also is indicated. The letters a, b, c, and d are used to indicate certain locations around the circuit. Applying Kirchhoff’s second law to the circuit,

Kirchhoff’s Laws of Electric Circuits | Additional Documents & Tests for IIT JAM

Figure: Circuit illustrating Kirchhoff's loop equation (see text). 

Kirchhoff’s Laws of Electric Circuits | Additional Documents & Tests for IIT JAM (26)

Referring to the circuit in Figure, the potential differences maintained by the electromotive forces indicated are VbVa = E1, and VcVd = −E2. From Ohm’s law, VbVc = iR1, and VdVa = iR2. Using these four relationships in equation (26), the so-called loop equation becomes E1E2iR1iR2 = 0.
Given the values of the resistances R1 and R2 in ohms and of the electromotive forces E1 and E2in volts, the value of the current i in the circuit is obtained. If E2 in the circuit had a greater value than E1, the solution for the current i would be a negative value for i. This negative sign indicates that the current in the circuit would flow in a direction opposite the one indicated in Figure.
Kirchhoff’s laws can be applied to circuits with several connected loops. The same rules apply, though the algebra required becomes rather tedious as the circuits increase in complexity.

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