Using Thevenin's method to find Vx in the circuit below: -120 80 60 40 220 v...
Q1. Zur In Find Vx in the circuit below: + V IR 100 3 vx Ellor ISV : 5v + ZUX +V, TV +Vx=0 - V222t 10110 = 50w
Find I, in the circuit shown. 40 12 V 412 + 120 1212 60
Q4/// What is the current of the 40 v ?voltage source of the circuit below SA 202 w 802 w 103 40 20 V 40 V Current source Voltage source leave question o 13 A 0.5 A O 12A O 10 A 1A O أخرى: Q5/// The maximum power dissipated in a 4 load is 100 w when connected to a d.c. voltage V and internal resistance R. Calculate: the current in the load, internal *.resistance R, and voltage V...
Using the differential equation approach, find io(80 ms) in the circuit in the figure below. 60 2H 12v (+) <120 242 t= 0 | t= 0 Biot)
Q1: In the circuit shown below use Thevenin's method to find Voc and the maximum power delivered to the load RL 4R 32
Q1: In the circuit shown below use Thevenin's method to find Voc and the maximum power delivered to the load RL 23 Τον Θ
PLEASE SOLVE QUESTIONS CORRECT AND CLEAR FOR VOTE UP 1)Using Thevenin's method, Compute ix for the circuit below circuit where Vin(t) 2cos(300) V. 222 50 92 a 102 82 Vin(t) vc(t) 110 422 0.2 H 000002 5vc(t) 10/3 mF 2)Find I, in the below circuit. I. 220/0° V 12 kW 0.866 pf leading 16 kW 0.85 pf lagging 20 kVAR 0.6 pf lagging
A four-wire wye-wye circuit has: Van=220<120, Vbn=220<0, Vcn = 220<-120 if the impedance are: ZAN = 20<60, ZBN = 30<0, ZCN = 40<30 find the neutral line.
3) Using Nodal analysis technique find Vx in the circuit shown below 10 V 20 2 5Ω Vi V2 V3 9 A 10Ω 4) Using superposition theorem find lx for the circuit shown below: 10Ω 30 V+ 10 2 5 S2 -6 A
Problem 4 Capacitor Voltage (V) vs Time (s) 140 120 100 e 80 60 40 20 10 Time (s) 20 15 This graph shows the voltage across a discharging capacitor, which follows the rule: 1.) Using the information in the graph, what is the value of Vo? 10 2.) What is the halftime for the voltage decay (the time at which the voltage reaches half its initial value)? Read the value from the graph to the nearest whole number of...