P11_a, f= 5 kHz |VR| = P11_b, f= 70 kHz |VR| P11_c, f= 100 kHz |VR| = (mV) LVR= LVR= LVR= (deg.

Need Help with parts 11 and 12 please.

 

Thank you

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P11 a, f= 5 kHz |VR| LVR= LVR=. LVR= ZVR= P12, first give |V₂| and < V₁ equations, in terms of @ (and using the numerical values of R, L, C, Rin) = P11_b, f= 70 kHz |VR| P11_c, f= 100 kHz |VR| P11_d, f= 1 MHz |VR| = = = V₁| in terms of co= P12_a, f= 5 kHz |V₂| P12_b, f= 70 kHz |V₂| = P12_c, f= 100 kHz |V₂| P12_d, f= 1 MHz |V₂| V₁ in terms of = Express the following Problem 12 magnitudes in millivolts, and angles in degrees (include units of measurement!) = = = (mV) = (mV) (deg. LV₁ = 2 V₁ = <V₂ = . 2 V₁ = (deg

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2. Recall the actual p-p voltage supplied by the signal generator is the open-circuit p-p voltage as shown in Figure 1. (For the laboratory discovery, make sure the open-circuit p-p voltage is 2 volts before connecting the circuit elements (R, L, C) to build the circuit shown in Figure 1.) If we use an oscilloscope to measure the voltage across the generator, we are actually measuring the voltage, V₁(t), across the terminals AB. If Vs (t) = cos(ot) volts (open-circuit generator voltage), what is the phasor, V₁, of the measured voltage across the generator? 3. By inspection of the circuit, explain why the measured peak voltage across the generator (peak of V₁(t)) is close to the peak voltage of Vs (t) (which is 1V) at low (DC) and high frequencies. 4. Use the result in Q.1 to find the resonant frequency of the circuit when C= 4.7nF. L=1mH, and R= 51 ohm. 5. For Vs (t) = cos(ot) volts, find |VR| and Z VR when f= 5 kHz, 70 kHz, 100 kHz and 1MHz when C= 4.7nF. L=1mH, and R= 51 ohm. 6. Also find V, and ZV, when f= 5 kHz, 70 kHz, 100 kHz and 1MHz 7. Repeat Q.1(a)-(d) for the parallel RLC circuit shown in Figure 2. The output is the voltage across the external resistor, VR (t). The (I/O) frequency response for this circuit is VR H₂(jo)= V/ Vs generator + Rin A + V₁ (t) L R + Figure 2: An RLC circuit excited by a sinusoidal voltage source, with L and C in parallel 8. Repeat Q.2 for the RLC circuit shown in Figure 2. 9. By inspection of the circuit, find the measured peak voltage across the generator (peak of V₁(t)) in terms of the peak voltage of Vs (t) at low (DC) and high frequencies. Note: At low and high frequencies, we have a voltage divider. 10. Use the result in Q.7 to find the resonant frequency of the RLC circuit in Figure 2. 11. Repeat Q.5 for the RLC circuit shown in Figure 2. 12. Repeat Q.6 for the RLC circuit shown in Figure 2.