Use KVL to determine the Voltage Source Ez (V). E3 (V) = ? Is =2A E2...
In the circuit shown below, Use KCL and KVL only, a) Calculate the unknown voltage V, and the unknown current lo. b) Determine the power supplied by the 100 V source. 152 w 202 322 + V. 22 1Ω3 LO 100v
The next four questions relate to the series schematic. Assume the voltage source is 10 V 20° What is ZTOTAL in Polar Notation? R1 7. V13 .3 k C1 10 V 1 KHz 0.01 uF 8. What is ITOTAL in Polar Notation? 9. What is the voltage across the Capacitor in Polar Notation? 10. Use KVL, the voltage source, and the voltage across the Capacitor to determine the voltage across the Resistor in Polar Notation.
Use the superposition Theorem to find the voltage Vab Voltage due to 2A source = units Voltage due to 120V source = units Vaba units 2002 4092
Use KVL to find resistance R if L=0.5 Henry, E=40 V, i=0 when t=0, i=2A when t=0.05sec, and there is no capacitor in the circuit.
(5) In the circuit below, E1 11 V, E2 = 6 V, and E3 = 6 V. Also R1 26 a. R2 109 n, and R3 61 . Find the current through R1. E7 1. O 0.061 A 2.O 0.045 A 3. 0.026 A 4. O 0.034 A 5. O 0,083 A R2 E 3 E 1 W
1. SUPERPOSITION (25 POINTS) 1Ω + 2 v, + 1V A 2A 222 w + 12 1.1 By using KCL, KVL, & Ohm's Law, determine the value of the voltage v. (10 points) 1.2 By using Superposition, determine the value of the voltage v (15 points)
a) The value of Ix= 3A, use KCL to determine the values of IA and IB. b) Use KVL or knowledge of voltage across parallel elements to determine the voltage across Ra. Then use Ohm's Law to determine the value of RA. c) Use KVL to determine the value of the independent voltage source, Vx. d) Fill out a power table and determine the value of the power absorbed by each element. e) Add the absorbed powers and verify that...
4. Find in the circuit below if V = 4/0° VAMS- Note: use KVL, KCL, and Ohm's Law to solve. {0.52 WM 5. Determine the average power and complex power supplied by the source, V , in problem 4.
Chapter 1 Homework: 1.1 For the circuit below, determine a) the voltage, V, b) the resistance, R c) the current, I, d) the power (absorbed or supplied) by the current source e) the power (absorbed or supplied) by the 3V voltage source + 12V . 3V 6V V, 2A 3A
1. Use the voltage divider equation to determine V 12 V 20A 2. Use the current divider equation to determine l1 I, 30x 3. Use Nodal analysis to determine V.. lov (+ 4. Use mesh analysis to determine the current through the voltage source. SA IA