phasor technique, solve for i in the given circuit. (Round the final answer to two decimal...
(3) Using phasor techniques, solve for the equivalent impedance and the current I(t) in the circuit shown in Figure 3. Given: Vs(t)-0.4cos(100t-1.309) V 1.2 μF Vs(t) 100 mH Figure 3
Review Part A. Find the relationship between the phasor voltage and phasor current for a resistance The resistor shown here has been transformed into the phasor domain: Ik 4k Suppose that the phasor current is given by IR = 752120 mA. Find the phasor voltage VR. Enter a complex number in polar form, with phase angle in degrees. View Available Hint(s) 3002120 V Submit Previous Answers Correct Part B - Draw the phasor diagram of the resistance from Part A...
Use the phasor technique to add the following sinusoidal functions. Put the final answer in the form V4(t) = A cos(wt + 8). vi(t) = 10 cos(wt + 10°) vz(t) = 5 sin(wt – 30°) vz(t) = 7 cos(wt)
A series RLC circuit has R = 802, L = 240 mH, and C = 5 mF. If the input voltage is v(t) = 114 cos 2t, find the current flowing through the circuit. Please report your answer so the magnitude is positive and all angles are in the range of negative 180 degrees to positive 180 degrees. The current flowing through the circuit is i(t) = cos(2t + ) mA.
How to solve this? Please show how to change the capacitor and inductance into phasor. Thanks 12) Find vo in the following circuit using nodal analysis. 1 H 322 WW 10 cos(1 – 45°) V vo 5 sin(a + 30°) V (Answer: 15.73 cos (t + 247.9°) V)
Determine the voltage across R2 in the given circuit. (Calculate the direction in radians and round the final answer to two decimal places.) Given: Kt) = 20 cos(533.33) A, R1 = 9.2 Ω, R2 = 34 Ω, L = 15 mH, and C-117F i() 2 The voltage across R2 in the given circuit is VR2(t) = | cos (533 33 ) V
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) -...
In the circuit given below, V = 45 V and / = 9u(t) A. Find i(t) fort > 0. 10 22 www lico i(1) V 10 mF 4092 - 4H The current equation i(t) = [E+ (A091)+(Best) A, where A = B= S1 = s2 = and E= In the circuit given below, R=40. Find for t> 0. 492 ta X R WWW HH 1=0 / F 60 V H O 19 = -7.50 + [7.50 COS(8,731 +9.556 sin(8,731 ]e-11121...
1. A 2-H INDUCTOR DRIVES A CURRENT OF 0.5 AMP WHEN THE CIRCUIT IS OPENED THE CURRENT DISAPPEARS IN 0.01 SEC, CALCULATE THE EMF. 2. CALCULATE THE MAGNETIC FLOW THROUGH A COIL OF 7.2 Mh WITH 300 ROLLS WHEN i=10 mAmp 3. THE CURRENT IN A 0.02-H INDUCTOR VARY ACCORDING TO I-3t 4t CALCULATE a. Emf at t=1 sec and t = 5 sec b. So that the value of t the Emf induced is zero 4. A SOLENOID HAS...
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)