1. Connect the circuits as shown in figure 1. Use the following values: Resistor Ik ohms; 100mH inductor; 10nF capacitor R1 $1.0kn 3.536 Vims 10kHz L1 100mbt CT =10nF Figure I 2. Set the frequency at 10kHz. 3. Connect channel 1 input of the oscilloscope in points (a,b). Set the output of the signal generator to have Vs 10 Vp-p. 4. Connect Channel 2 of the oscilloscope in points (c,b) and measure the voltage across the resistor VR(P-p)=, volts 5. Change the position of the resistor and capacitor, then measure the voltage across the capacitor. Ve(p-p)=, volts 6. Change the position of the capacitor and inductor, then measure the voltage across the inductor. Vi(p-p)=. volts 7. Compute the total voltage of the circuit. Vripp 8. Calculate the current of the circuit I(pp= 9. Find phase difference phi between I(p-p) and Vs:

Number 8 and 9 only

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4G I. 9:00 lab manual circuit t... Part 2- Measurement of Voltage and Current in RLC Circuits using oscilloscope. 1. Connect the circuits as shown in figure 1. Use the following values: Resistor Ik ohms; 100mH inductor; 10nF capacitor R1 $1.0kn 3.536 Vims 10kHz L1 roombt CT :101F Figure 1 2. Set the frequency at 10kHz. 3. Connect channel 1 input of the oscilloscope in points (a,b). Set the output of the signal generator to have Vs= 10 Vp-p. 4. Connect Channel 2 of the oscilloscope in points (c,b) and measure the voltage across the resistor Vr(p-p)=. volts 5. Change the position of the resistor and capacitor, then measure the voltage across the сараcitor. Ve(p-p)=. volts 6. Change the position of the capacitor and inductor , then measure the voltage across the inductor. VL(p-p)= volts 7. Compute the total voltage of the circuit. VTp-p= 8. Calculate the current of the circuit I(p-p= 9. Find phase difference phi between l(p-p) and Vs: *Get the instructor signature bere for above