(3) Using phasor techniques, solve for the equivalent impedance and the current I(t) in the circuit...
Find the Thevenin equivalent circuit for the circuit shown below. Draw the equivalent circuit along with the load impedance. V 10 /0° V, w 1000 rad/s. Calculate the current through and the voltage across the load resistor. (30 pts) L1 1 mH R1 L2 500 Q 1 mH V C1 RL 100 μF 1.5 kQ
Problem 5. Use phasor techniques to analyze the circuit shown below and answer the following questions. a. Draw the frequency domain circuit b. Find the equivalent impedance C. Find the current iſt) flowing from left to right through the 30 ohm resistor d. Find the steady-state voltage v.(t) (Hint: answer is v.(t) = 17.14 cos(2000) V) 3022 5022 W 50 uF 60 sin 2001 V 0.1 H 3.0)
How to find Current and Voltage using impedance? Please do not round. I'm having trouble reducing the circuits into the correct form to solve for the asked values. ELE212 Homework 021 Part #1 (0/10) For the circuit shown below, solve for the current i(t) as a function of time. This software is expecting a phasor of the form 12.3 cos ( 456 t + 78.9 ) amps. Hint - start with parallel and series combining. 3.1 mH 6 cos (500...
(20 points) Use phasor techniques, solve for the current in the circuit. 3Q 3Hi 1/3 F
Problem 1.7. Find the current in the circuit shown given v.(t) 30cos 100t V R1 10Ω 8 Vs(t) し1 25 mH
Find the output current i, in the circuit shown below using superposition, where vs = 28 cos(4t) V. Given: 161 is the value of phasor i, when only 20 V source is on and 1.2 is its value with vs(t) on only. Please report your answer so the magnitude is positive and all angles are in the range of negative 180 degrees to positive 180 degrees. 42 22 AN vs 0 14 20 V The value of 101 = The...
2) For the circuit shown, draw the phasor equivalent circuit for the described circuit, and answer the questions below. then find the voltage across the current source (v(t)). Note for questions b and c you need to determine the instantaneous power associated with the source using values for P and Q(P and Q are determined from the phasor analysis results for V and Ig) and then use the trig identity Acos(x)Bsin(x) = V42 + B2 cos(x-Tan(B/A to convert Pcos(x) -...
Q1) Find the equivalent impedance of the circuit below in the S-domain. UC2F 30.5 H is(t) Q2) The circuit of shown below, Given that R-422, L=2H and i (0-) = 1 A. The current source in the circuit is given as is(t) = 3e 'u(t) A. a) Considering the initial conditions, redraw the circuit in the s-domain. b) Identify which circuit analysis approach could be used to solve this problem. c) Formulate the problem by writing the equations that describe...
Example 1: Analyze the circuit shown below using phasor analysis. a) Determine i(), v,(t), and v,(t). b) Show that V. VV c) Show that V.VV mathematically d) Show that V, --+-2 using aphasor diagram 10 15 1003 26.3 mH
solve the circuit following the steps For the sample AC circuit 2: vst) 31H Zeq Vs(t) = 10 cos (10t + 90°) V (Variations: Changes in resistor and source values and directions).) B. Determine Step 1: The voltage phasor VSF Step 2: The equivalent impedance Zeq Step 3: The phasor current IF Step 4: The steady state current l(t)ss Step 5: The complex power (S = VsFlF* = P + jQ). Step 6: The average (P) and reactive power (Q)....