2. Kirchhoff's Current Law (KCL) Experimental Procedure Design the circuit using resistors and power supply (battery) and make the necessary connections as shown in Figure 2. According to Kirchhoff's Current Law, sum of incoming and outgoing currents must equal each other. The figure shows I entering the node while I1 and I2 are leaving the node so we must have I-I1+I2. DC AMPERMETER 888 INPUT DC AMPERHETER DC AMPERMETER OC POER SUPPLY 8888 8888 INPUT +INUT I1 + 1 RI 10OR 12 + 2 R2 200 Figure 2 a. Adjust the voltage steps of the power supply as Table 2, read the related currents I1, 12 and I. # of step Voltage of the power supply (Volts) 3.0 I: (mA) I(mA) calculated(I;+I:) I (mA) measured I1 (mA) 1 2 4.5 Table 2 b. Is the main current (I) equal to sum of currents In and I2? Check for all steps. c. Calculate the equivalent resistance R of the circuit. Req =..

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2. Kirchhoff's Curent Law (KCL) Experimental Procedure Design the circuit using resistors and power supply (battery) and make the necessary connections as shown in Figure 2. According to Kirchhoff's Current Law, sum of incoming and outgoing currents must equal each other. The figure shows I entering the node while In and Iz are leaving the node so we must have I-I1+I2. DC AMPERMETER 8888 INPUT OC POER SUPPLY DC AMPERMETER DC AMPERMETER 8888 8888 INPUT- + INPUT I1 R1 10OR I 8-3U 12 R2 200 Figure 2 a. Adjust the voltage steps of the power supply as Table 2, read the related currents I1, 12 and I. # of step Voltage of the power supply (Volts) 3.0 In (mA) I(mA) calculated(I+I) I (mA) measured I (mA) 1 2 4.5 Table 2 b. Is the main current (I) equal to sum of currents In and I2? Check for all steps. c. Calculate the equivalent resistance R of the circuit. Req = ... d. Calculate main current (I) for all steps by using the Ohm's Law. Compare the results with the results calculated by using Kirchhoff s Current Law in step b. e. Check your calculation in step c by measuring overall resistance using an ohmmeter.