C. Voltage and Current in Parallel RC and RLC Circuit 1. Build the circuit of Figure 10.11 using R = 1 k2, and C = 10 nF

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C Voltage And Current In Parallel Rc And Rlc Circuit 1 Build The Circuit Of Figure 10 11 Using R 1 K2 And C 10 Nf 1 (170.67 KiB) Viewed 46 times

C. Voltage and Current in Parallel RC and RLC Circuit 1. Build the circuit of Figure 10.11 using R = 1 k2, and C = 10 nF. Place V/A (voltage and current) probe across the resistor and another across the capacitor. In the PROBE settings, tick the "Periodic" option instead of "Instantaneous" of the Interactive simulation under Measurement labels. This will display peak-to-peak voltage/current (VPP/IPP), RMS voltage/current (VRMS/IRMS), average voltage/current (VAV/IAV), etc. 2. Generate the output waveform to compare the voltages and currents across each element. From the generated output waveform, compute the phase difference between I and V of the inductor and record the value in Table 10.6. 1 V1 C1 ~ 1V 10nF 10kHz 0° Element Vpp VRMS Ipp IRMS Phase Difference (VR vs IR, Vc vs Ic) Resistor Capacitor 3. Replace the capacitor with the 10 mH inductor in Figure 10.11, and repeat step 1-2 in like manner, and record the values in Tables 10.7. Table 10.7 Element Vpp VRMS Ipp IRMS Phase Difference (VR vs IR, VL vs IL)) Resistor Inductor 4. Using Figure 10.12 with both the 10 nF capacitor and 10 mH inductor, repeat step 1-2 in similar manner, and record the values Table 10.8. V1 R1 L1 ~ 1V C1 10kHz 1k92 10mH 10nF 0° Figure 10.12 Table 10.8 Phase Difference (VR vs IR, Vc Element vs Ic, VL vs IL) Resistor Capacitor Inductor 0 VPP 0 R1 1kQ2 Figure 10.11 Table 10.6 VRMS Ipp HH IRMS