v(t) = 3V sin (2r(5000)t + 0º) A R1 50Ω C1 L1 V1 2.12 Vrms 5000 Hz 0° 33nF 15mH в R2 R3 1002 470 Function Generator Fig 1: Parallel Components). Calculations: 1. Calculate the R2-C1 branch impedance and current(phasors). 2. Calculate the R3-L1 branch impedance and current(phasors).

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I need hep with the calculation on 1 and 2

1. Build the following circuit (Fig 1: Parallel Components).
2. Use CH1 of the oscilloscope to monitor the voltage at point A reference to ground, and CH2
iteratively to monitor the voltages at B and C (both with respect to ground).
3. Set the function generator to provide the following sinusoidal signal at point A
(measured with CH1):
v(t) = 3V sin (2t (5000)t + 0°)
A
R1
500
C1
L1
V1
2.12 Vrms
33nF
15mH
5000 Hz
0°
В
R2
R3
1002
470
Function Generator
Fig 1: Parallel Components).
Calculations:
1. Calculate the R2-C1 branch impedance and current(phasors).
2. Calculate the R3-L1 branch impedance and current (phasors).
3. Calculate the total impedance of the circuit
4. Calculate the total current supplied by the generator (phasor).
seen at point A.
Transcribed Image Text:1. Build the following circuit (Fig 1: Parallel Components). 2. Use CH1 of the oscilloscope to monitor the voltage at point A reference to ground, and CH2 iteratively to monitor the voltages at B and C (both with respect to ground). 3. Set the function generator to provide the following sinusoidal signal at point A (measured with CH1): v(t) = 3V sin (2t (5000)t + 0°) A R1 500 C1 L1 V1 2.12 Vrms 33nF 15mH 5000 Hz 0° В R2 R3 1002 470 Function Generator Fig 1: Parallel Components). Calculations: 1. Calculate the R2-C1 branch impedance and current(phasors). 2. Calculate the R3-L1 branch impedance and current (phasors). 3. Calculate the total impedance of the circuit 4. Calculate the total current supplied by the generator (phasor). seen at point A.
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