(b) Find the total current delivered by the source using Ohm's law in the circuit in...
In the circuit, R1=50 Ohm, R2 = 36 Ohm, the reactance of the inductor L1 is XL1=15 Ohm, the absolute value of the capacitor C1 reactance, XC1=98.8 Ohm. The voltage source VS amplitude and phase are VSm=20 V and VSph=0.8 rad. L1C1 om R2 VSm ZVSph ~ R13 R2 In the circuit, R1=50 Ohm, R2 = 36 Ohm, the reactance of the inductor Li is XL1=15 Ohm, the absolute value of the capacitor C1 reactance, XC1=98.8 Ohm. The voltage source...
In an R-L-C series circuit, the magnitude of the phase angle is 40.0o, with the source voltage behind the current. The reactance of the capacitor is 300 ohms, and the resistor resistance is 150 ohms. The average power delivered by the source is 120 W. a. What is the reactance of the inductor? b. What is the impedance of the circuit? c. What is the rms current in the circuit? d. What is rms voltage of the source?
Complex numbers are used in electronics to describe the current in an electric circuit Ohm's law relates the current in a chcu·in amperes the voltage of the chat E, in volts, and the resistance of the circuit. R, in Ohms, by the formuda E·IR Find E, the voltage of a circuit "I"(4-5i) amperes and R-(2·6/) ohns (Simplify your answer Type your answer in the form a+bi)
answer using Matlab or Octave please Fig.ACNodal2 In the circuit, R1-8 Ohm, R2 = 10 Ohm, R3 - 4 Ohm, the reactances of inductors and capacitor are XL1=4 Ohm, XL21 Ohm, XC1=2 Ohm; voltage source amplitude and phase are 11 V and O rad. Using nodal analysis, find the following 1) The amplitude of the potential at the top lead of inductor L1. (Unit: V) Submit Answer Tries 0/3 2) The phase of of the potential at the top lead...
For the circuit shown, using resistor combinations and Ohm's Law, calculate (a) Vo and b, (b) the power dissipated in the 15 ? resistor, and (c) the power developed by the voltage source. 2? 15 ? 120 V
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...
What is the phase of the current through L1 flowing left to right? (unit: rad) I got every part right, including the amplitude through L1, correct, but the phase is wrong. If you could do it in MATLAB that'd be helpful so I can see where I messed up Problem 02 C1 - m Vs1 ) C2 In the circuit, the amplitude and phase of the voltage and current sources are: Vs1: 8 V and 0.05 rad; Is1: 3 A...
Unit II Additional Homework Ohm's Law Challenge-For the circuit shown below: VB-10 V, R1 = 100 ?, R2-200 ?, R3 300 ?, R4-400 ?, R5-500 ?, R6-600 ?. Calculate the voltage across and the current 6) through each of the resistors in the table. R, /?2 Voltage Current R1 R2 R3 R5 R6 ?s 3 /n 6
A.2 Based on your knowledge of ohms law applied to impedances, determine the current (magnitude and angle) in the circuit of figure 2.1, when the frequency of the voltage source is set to a) 100Hz, 1 KHz and 5 KHz. Compute the RMS and peak value of power for each of the given frequencies. Enter the computed values in the provided section of your report. 1* sin(wt) 3 100 mH Figure 2.1 100 mH Inductance Circuit
Unit I Additional Homework 30) (10 pts) Ohm's Law Challenge-For the circuit shown below: VB 10 V, R1 = 100 Ω, R,- 200 Ω, R3-300 Ω, R4-400 Ω, R5-500 Ω, R6-600 Ω. Calculate the voltage across and the current through each of the resistors in the table. Voltage Current R1 R2 R3 R5 R6 Ts 厂 3 Ri