(Solved): Experiment 3. RLC Circuit Build the RLC circuit shown in Fig. 3 Set the amplitude of the source at ...

Experiment 3. RLC Circuit Build the RLC circuit shown in Fig. 3 Set the amplitude of the source at 5 Vrms and the frequency at 2500 Hz 1. Using phasor analysis, calculate the expected phasor voltages Vec. and Vt, and the phasor current 1. Include the calculated values in your report. 2. Use the multimeter to measure the amplitude of VR. Vc, and VL. 3. Use the oscilloscope to observe the source and resistor voltage waveforms simultaneously. Measure the phase difference between the source and resistor sinusoids. Save a copy of this trace for your report. 4. Swap the capacitor and resistor in the circuit so that the capacitor and source share the same ground. Use the oscilloscope to observe the source and the capacitor voltage waveforms simultaneously. Measure the phase difference between the source and capacitor sinusoids. Save a copy of this trace for your report 5. Now swap the capacitor and inductor in the circuit so that the inductor and source share the same ground. Use the oscilloscope to observe the source and the inductor voltage + OL Vs-V.cos(at) L 33 mH C 0.1 F R1 ?? w DR Figure 3. RLC circuit for Experiment 3. EE 201. Electric Circuit waveforms simultaneously Measure the phase difference between the source and inductor sinusoids. Save a copy of this trace for your report. 6. Repeat all of the above measurements at frequencies of 500 Hz and 12.5 kHz. RLC Circuit + Vs-V.cos(wt) + S UC L 33 mH ?. 0.1 uF R1 ?? w DR + Calculated V1 = Calculated Vc = Calculated VR = Calculated 7 = Vs/ IV/ /Vd NVR/ Osz OSR esc 500 Hz 2500Hz 12.5 kHz Attach all required oscilloscope traces.