R1 10.0k? V1 10kHz ?1 100mH 0° Circuit 2 Total impedance ZT in polar form =...
for the circuit below: a. Circuit Impedance in polar and rectangular form. b. Is the circuit more inductive or more capacitive? c. Draw the impedance phasor diagram. d. The net reactance that will make the impedance magnitude equal to 100 ohms. e. Itot, VR, VL, and VC in polar form. f. Draw the voltage phasor diagram. 47 2 80 2 35 22 4_ov frequency is 5KHz:
For the circuit below, what is the total impedance as seen by the source at 140 Hz? Give your answer in terms of magnitude (ohms) and phase (degrees or radians), 1. Is the circuit more capacitive or inductive? What is the resonant frequency? what is the total current? Give both magnitude and phase-一一 R3 R1 140 Hz C1 V1 0° し1 100mH
3. For the circuit shown in Figure 1, + VR - R = 3k 494 ET V 4.7 uF E = 8V sin(20,000t +60° -VL + Z = ? m L = 0.5 H Figure 1 i. ii. iv. v. vi. vii. Find the total impedance Zr in polar form. Draw the impedance diagram Find the current and the voltages VR, Vi and Vc in phasor form. Draw the phasor diagram of the voltages E, VR, V., and Vc and...
1. Using circuit 3-1, calculate the total current (which is also
the capacitor current and resistor current) by using Ohm’s Law. To
do this, you must first compute the total impedance of the circuit,
in polar form. Also, remember that Vs (source voltage) phase shift
is 0 degrees. Write your answer in polar form.
2. Compute the voltage across the capacitor (C1), using Ohm’s
Law and your result from #1. Write your answer in polar form.
3. In a series...
For the given circuit, a. Find the total admittance and impedance in polar form. b. Find the voltage E and currents I_r.I_L., and I_C in phasor form. c. Find the average power delivered to the circuit. d. Find the power factor and indicate if is leading or lagging. e. Find the time domain expressions for the currents and voltage. The total load on a 208 V, 60 Hz supply is 6 KW resistive, 10 kV AR inductive, and 4 kVAR...
Problem 4. (40 points). Topic: Phasor operations. Solve the problems providing the numerical solutions. Submit your solution to Assignment link as a pdf file including this page with the final answer in the box. For the circuit in Figure below: - Find the total impedance Zt in polar form - Find the value of L in milihenries and the value of C in microfarads. - Find the current I in phasor form. - Find the voltage VR in phasor form....
2)Passive Filter: High Pass Filter Lab Experiment 3) Given the following RLC series circuit. V, = 10 Vrm L 0º and frequency f= 90 KHz. The circuit elements values are: R = 5 KO, L= 10 mH and C = 470 pF. a) Calculate total impedance Z, in polar form. b) Calculate total current I, in polar form. c) Calculate the voltages across R, C and L, (VR, Vc, and V.). d) Draw voltage phasor diagram Vs, VR, Vc, and...
8. In a series circuit, there are three resistors R1 1.5k2, R2 The total current IT 2 mA and Vr-20V ?, (a). (b). (c). Draw the circuit diagram Calculate R2. Calculate Vi and V2.
R 014 1)2 = Ovi 1) In this circuit, 11 = 520 A, R1 = 43 12, Zc = -1892, V1 = 14.92-60.2, R2 = 28 , ZL = j2.502, and V2 = 14.92-60.2. Write the mesh equation for Ic. What is the total impedance that is used in this equation? Express this impedance in rectangular form X = a +jb, and enter your answer as the straight sum of the real and imaginary parts a + b. Show 3...
solve for
R2 R1 R3 750mA V1 12V V2 (5pts) 1.VI (5pts) 3. I32 (5pts) 2. IRI (5pts) 4. VR