Assume that o - 1200 *. Determine the equivalent impedance of the circuit. sec 27 Ω...
Problem 2 Assume the impedance of a circuit element is Z (3 +j4) 2. Determine the circuit element's conductance and susceptance. - 120 m A. G s, B = jl 60 mS B. G 333 mS, B-j250 mS C. G = 108 ms. B =-j 194 ms D. G-160 mS, B-j108 mS E. G 120 mS, B-j160 mS F. None of the other answers is correct.
Consider the below circuit and suppose ω = 500 rad/sec. What is the equivalent ADMITTANCE with
respect to terminals a and b?
Question 15 1 pts Consider the below circuit and suppose w = 500rad/ sec. What is the equivalent ADMITTANCE with respect to terminals a and b? 3 uF 2 4 mH Yab = 1/(j15 * 10-4) – 0.51 Yab = 315 * 10-4 + 2jSiemens • Yab = 1/(j15 * 10-4) +2j12 O Yab = 115 * 10-4...
For the circuit below, determine,
a. The equivalent resistance.
b. The total current in the circuit.
c. The total power.
d. The current and voltage for R5 and R7
.
Take, V = 48 V, R1 = 25 Ω, R5 = 45 Ω, R6 = 40 Ω, and R7 = 38
Ω.
2. 10] For the circuit below, determine, a. The equivalent resistance b. The total current in the circuit. c. The total power d. The current and voltage for...
A 208 –volt, Δ-connected generator supplies power to a-connected load of impedance 24 + j6 Ω/Φ through lines of impedance 1+ j1 Ω/Φ a) Draw the Y-equivalent per-phase circuit; b) Determine the line current; c) Determine the power absorbed by the load; draw the power triangle; determine the power factor; d) Determine the power lost in lines; e) Determine the total power supplied by the generator; draw the power triangle; f) Determine the power factor angle of the generator.
1. In the circuit shown in Fig. 1,where L= 8 mH and R-Ska. a. Determine how the input impedance Zja)-D behaves at ev extremely high ves at and low frequencies. b. Find an expression for the impedance. C. Show that this expression can be manipulated into the form ZGe)-RT+j d. Determine the frequency ω-ae for which the imaginary part of the expression in part c is equal to 1. Estimate (without computing it) the magnitude and phase angle of ZO...
d) If a capacitor has an impedance of-j4 Ω in a circuit operating at a frequency 012 rad/s, what is the value of its capacitance? A) C= 8.17 mF c) c" 4.32 mF D) C- 12.5 mF two parallel elements have to be the same. A) True B) Faise f The sum of voltages around a closed loop are equal to zero volts. A) True B) False g) Kirchhoff's Current Law at node Ve in Circuit 4 can be written...
A three-phase line, which has an impedance of (2 + j4) Ω per phase, feeds two balanced three-phase loads that are connected in parallel. One of the loads is Y- connected with an impedance of (30 + j40) Ω per phase, and the other is delta- connected with an impedance of (60 + j45) Ω per phase. The line is energized at the sending end from a 60-Hz, three phase, balanced voltage source of 120√3 V (rms, line- to-line). Determine...
19. Find the equivalent resistance of the circuit in Figure 1 30 V 18Ω 9.0 Ω 12Ω 6.0 Ω Figure 1 18.0 Ω 15.0 Ω 12.0 Ω 10.0 Ω C. D. 20. Find the power generated in the circuit in Figure 1 ● 45.0 W . 54.4 W ● 60.0 kW 60.0 W 1. In RC circuits, the discharging behavior is characterized by: a. Exponential growth Exponential decay c. Linear negative decay d. None of the abov In the circuit...
Problem (1) – 6 pts. Consider the circuit below with o=10 rad/sec: 10 mF 12 cos w V -о а 2 sin et A 1012 H ell 200 оь a) Find the Thevenin equivalent of the circuit in the frequency domain to the left of terminals a-b. Use Mesh Analysis to obtain V (No other method will be accepted.) Use the Nodal Analysis to obtain Z (No other method will be accepted.) b) Find the Norton equivalent of the given...