Series Circuit - Solve for all valves. ET = 100 V |₁ = 1.) Fill in the missing blanks. RT = P₁ = V₁ = 1₁ = Assignment #1 ELEC-1139 R₁ = 2002 P₁ = V₂ = 12 = R₂ = 40 P₂ = € + R₁ R3 V3 = 13 = R3 = 70Q2 P3 = R2
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- You find that a 25-F capacitor connected to 480 VAC is defective. The storeroom has no capacitors with a 480-VAC rating. However, you find two capacitors rated at 50 F and 370 VAC. Can these two capacitors be connected in such a manner that they can replace the defective capacitor? If yes, explain how they are connected and why the capacitors will not be damaged by the lower voltage rating. If no, explain why they cannot be used without damaging the capacitor.A pure capacitive circuit is connected to a 480-volt, 60-Hz power source. An ammeter indicates a current flow of 24 amperes. The circuit current must be reduced to 16 amperes by connecting a second capacitor in series with the first. What is the value of the existing capacitor? What value capacitor should be connected in series with the original capacitor to limit the circuit current to 16 amperes?1) For the circuit in Figure 1, set up the supernode equation. Response format: Ava ± Bvb ± Cvx = D 2) For the circuit in Figure 1, set up the auxiliary equation of the supernode. Response format: Ava ± Bvb ± Cvx = D 3) For the circuit in Figure 1, set up the equation for the remaining node. Response format: Ava ± Bvb ± Cvx = D
- Reply as soon as posible 1) For the circuit in Figure 1, set up the supernode equation. Response format: Ava ± Bvb ± Cvx = D 2) For the circuit in Figure 1, set up the auxiliary equation of the supernode. Response format: Ava ± Bvb ± Cvx = D 3) For the circuit in Figure 1, set up the equation for the remaining node. Response format: Ava ± Bvb ± Cvx = DVarious parameters of Schering bridge are given as follows. The voltage supply of 2 kHz is connected to terminals A and C and detector to points B and D. Arm AB comprises the unknown Resistor R1 and capacitor C1. Arm BC consists of resistor R2 of 18k 2. Arm DA consists of capacitor C2 of 0.06 µf. Arm CD has R3 of 1.5k2 and C3 of 2nf are in parallel. Calculate (i) the capacitance (C1) (ii) the equivalent series resistance (R1) and (iii) dissipation factor. Also draw the schematic diagram.The following switches has been closed for a very long time before opening at t=0s. Please help answer the following. 1st circuit 1. Value of vc(∞) and vc at t = 0.01 s. 2. Circuit's time constant ? for t > 0? 3. Value of Ic at t = 0.01 s (in mA). 2nd circuit 1. Inductor current value in Amperes before the switch changes position. 2. Circuit's time constant ? for t > 0? in ms 3. Value of il and vl at t = 0.005s.
- Find the magnitude of the response of the following system.(Need handwritten solution only please otherwise downvote ).Ex. 592. Refer to Figure 592. [R1,C1,S1,P1]=[17, 8,1,0]. [R2,C2,S2,P2]=[12,10,1,0]. Determine A,B,C,D,E,F.Calculate the ratio iC2/iT. Enter your answer rounded to 2 decimal places. All capacitors were initially discharged.at t = 0, S1 is placed at position 1 and S2 is closed.At t = 15 ms, S1 is placed at position 2 and S2 is kept closed.At t = 25 ms, S1 is kept at position 2 and S2 is opened.Data: V1 = 18 V;R1 = 10.0 kΩ, R2 = 8 kΩ, R3 = 1.5 kΩ, R4 = 5 kΩ, R5 = 18 kΩ, R6 = 7.5 kΩ;C1 = 4.5 µF, C2 = 6.5 µF, C3 = 14 µF
- An Si abrupt p-n junction is doped with N. = 109 cm on p-side and N, = 5 x 10" on n-side. Findthe penetration of transition region into n-side at equilibrium (300 K).(a) 0.455 um(b) 0.00227 am(c) 0.227 jum(d) 0.00455 umGiven the following Resistances and Capacitors in Series and Voltage Source: R1 = 6.946 ohms R2 = 9 485 ohms C1 - 0.731 Farad C2 - 0.925 Farad Vs - 15 Volts Frequency = 168 Hz What is the Capacitive Reactance of C1?the root locus (draw asymptotes, find their angles, break away points etc ) for the follo aymmddetermmethevalucofkwhmhmakesthesystmnomllmry What is the fre (Nul:e. If you do not show your complete work, credits will not be assigned) k Gl - N L)