Problem #2 Voltage and current sources are connected as shown in the Figure 2. what *ould...
Learning Goal: To identify a permissible circuit. Before proceeding, review the definitions of ideal independent and dependent voltage and current sources. Part A - Valid connection of ideal voltage and current sources For the circuit shown(Figure 1), determine the value of 12 that makes the circuit interconnections valid. Assume that V =-5.25 V and I1 = 3.3 A Part B - Valid connections for ideal and dependent voltage sources For the circuit shown(Figure 2), determine the value of a that makes the interconnections valid. Assume...
Q1) Two ideal voltage sources designated as machines 1 and 2 are connected as shown in Figure 1. If E! = 100.200 V, E-100し300 V and Z = 0 +JS a) Determine whether each machine is generating or consuming real power and the amount b) Determine whether each machine is receiving or supplying reactive power and the amount c) Determine the P and Q absorbed by the impedance 2 #2 Figure 1: Ideal voltage sources connected through impedance Z Q2)...
Problem 03.031 - Nodal analysis: Independent voltage and current sources and dependent voltage and current sources In the circuit given below, R=5 . Find the node voltages. 122 + 1 41, 20% uz 2 1A {42 R 342 10 V The value of V4 is The value of v2 is The value of V3 is 5.40 v. 6.96 V 1.57 v.
2. The circuit diagram shown in Figure 2 shows two emf sources (batteries) connected together through a conductor with resistance R- 0.2 S2 in order to form a battery pack. The batery pack, is then connected to a light bulb having a resistance of Rb-55 ?. The sour internal resistance ri 0.025 ? and r2-0.020 ? as shown in Figure to the right. a. [5 marks! If ?? = 13.0 V and ?,-1 1.5 V, calculate the current 12 ri...
A simple DC circuit is shown below with ideal current and voltage
sources.
Find the voltage (Vout) across the current source, in volts.
212 10 V 5A out
Problem 1. Find the current I and V, in the circuit. Turn on voltage of the diode is 0.7V. (10 points) 1+5V Problem 2. Find the current and V, in the circuit. Turn on voltage of the diode is 0.7V. (10 points) + +5V BR-4.30 PV
Consider the system shown in the single-line diagram of Figure (3). All reactances are shown in per unit to the same base. Assume that the voltage at both sources is \(1 \mathrm{p}\).u.
a- Find the fault current due to a bolted- three-phase short circuit at bus \(3 .[10\) points \(]\)
b- Find the fault current supplied by each generator and the voltage at each of the buses 1 and 2 under fault conditions. \([10\) points \(]\)
Question 2- An alternating current power supply is connected as shown in the figure to a resistor, a capacitor, and an inductor. The power supply provides a voltage given by ε(t)-fo . cos(ωt). a) Make a phasor diagram and draw the voltage and current phasors for the resistor, capacitor, and inductor. (Be sure the phase relations between each phasor is clear, and be sure to label all phasors.) b) Use your diagram to find an equation for lo (the amplitude...
2. 25 Points Use the circuit shown in Figure 1 to solve this problem. ) Find the voltage at point A with respect to point B, (vaB) b) If a resistor Rx is connected in parallel with the 5[S2] resistor in the circuit, the voltage VAB becomes equal to zero. Find the value of the Rx. c) Find the energy absorbed by this Rx resistor after t 10 [seconds] 2[2]212] 212] VAB 6[Ω] 5[2] iG Figure 1
Problem 2) The transistor shown in figure below has a threshold voltage of 1.5 volts and K 0.4 mA/V2. Assuming vo is a pulse signal with a minimum of O V to a maximum of 5 V, find the voltage levels of the obtained pulse signal at the drain output vp. ΙΚΩξ D VD VoD-5V 0 S