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please show steps. thank you! What is the equivalent impedance of this circuit at a frequency...
Please do all parts and show work, thank you! 7. 3 mH Determine the equivalent impedance, Zeq, of the circuit. Write your answer in rectangular form. (3 pes) 4cos(1000+459 v O s 5: 1 mF Zaorson 22: jwej (COX 3)-33 zce (1000/12.3. Zoo Za + ZL + Zc Sch+j3 cm + -j Zeq = 5 + je on I mi 8. Solve for v.(t). Write your answer in the time domain. (6 pts) 312 102 cos(10') v Y () 1012...
Determine the frequency that causes the equivalent impedance Zeq in the given circuit to be purely resistive. Round the final answer to two decimal places.) Given: L 17 mH 15? The frequency that causes the equivalent impedance Zeq to be purely resistive is a 242535 63 rads.
Circuit Analysis: Need help ASAP please, thank you. (these are the correct options ONLY) Question 2) If R 2 ohms, X 2 ohms, and Is 6+j0 A, the phasor current I (in amperes) is O 3-j3 O-3-J3 0-3+]3 O 3+j3 If R 1ohm, X1 3ohms, and X2 terminals a and b is -5 ohms, the equivalent impedance Zeq (in ohms) at j X2 Zeq j X1 ○ 4+jo O 5+j5 0 1+j2 O 5-j5 O 1-j2
please provide steps and answers. 3. What is the total impedance of the circuit? e 115 sin (25133t+ 0°) 700 2.4 mH 400 a. Z=77.94QL26.40 b. Z=57.13QL 45.10 c. Z= 103.9Q L-19.80 d. Z= 41.14 QL-77.30
please show work thank you The resonant frequency of an RLC series circuit is 2.88 x 103 Hz. If the self-inductance in the circuit is 3.89 mH, what is the capacitance in the circuit? Colant honorant nnnn
Please help me with all. 3 questions. I need to use it to study for the main deal thank you! Problem 1 Given the circuit shown in Figure 1. Determine the value of V1 and 12. Hint: Convert mutual inductance in equivalent model with correct polarities. j5 12 + 12 10/0° Av j10 22 j10 Ω 1+ 100/0° V Figure 1 Problem 2 Obtain V, and V2 in the ideal transformer circuit of Figure 2. Hint: Convert current to voltage...
Problem 1: Find the input impedance for the following circuit. Assume an angular frequency of 0 = 50 rad/sec. 2 mF 200 mH Zin 10 mF T10mF Problem 2: Calculate average power absorbed by impedance Z = 30-7092 when a voltage V = 120 20° is applied across it. Problem 3: Assuming w=1, for the following circuit find: a. Input impedance ZH b. Thevenin voltage V c. The value of R, that will absorb the maximum average power (recall this...
Please include all the steps used in the solution. Thank you! P5. The load impedance Zį for the circuit below is adjusted until maximum average power is delivered to ZL. Let the phasor voltage Vs = 25 20° Vrms. a) Find Z b) Find the maximum average power delivered to Z 2522 i 1092 122 100Z0° Vrms (+) ZL
Question-20 5 points Capacitors Cz, C2 and Cz are connected as shown in the circuit below. The equivalent capacitance between points A and B is: C1 a. 16 nF b. 11 nF C. 0.77 nF d. 0.1 nF 1nF C2 10nF C3 InF Question-21 5 points The impedance, Z of a 10 mH inductor at a frequency of f = 1000 Hz, expressed as a complex number is a. –j 62.83W b. +j 62.83W C. –j 10W d. +j 10w...
18. The circuit of Figure P10.18 operates in the sinusoidal steady state at a frequency of (1), = 2000 rad/sec, R, = R, = 10 S2, V:,, = 50 V, and I. = 22 - 53.13º A. Compute the phasor volt- age across R2 and then find the impedance Z(w). Now construct a simple series circuit that represents this impedance at (1) N Figure P10.18 ANSWER: 2 = 2.5 + 710 12