First pspice model for the purpose of Results checking .....
100mA=0.1A
as per simulation
Vc=2.94 v,
Ic=0A,
IR2=70.6mA,
IR4=29.4mA.
Examine the circuit PROBLEM 4 (12 POINTS) The circuit below has been in this configuration for...
Problem 3 In the circuit shown below: a. Write a node equation at node 1 by summing the currents leaving node 1. b. Write a node equation at node 2 by summing the currents leaving node 2. c. Find Vj and V2 by solving the two node equations. d. Find the currents Iri, IR2, IR3, IR4, Is. e. Find the power absorbed by R1, R2, R3, R1, and power released by Vs and I.. IR1 R1 w 2k IR2 V2...
For the circuit shown below, using Ohm's law enter in an equation for IR1, IR2, IR3 IR4, IR5, and IR6,in terms of the voltage at nodes 1, (V1),2, (V2), 3, (V3), 4, (V4), R1, R2, R3, R4, R5, Rf6 A sample answer would be (V1-V2)yR1. If you are getting a syntax error, you might not be typing in the variables correctly. Do not try to add subscripts or any formatting, this will cause a syntax error as well. R1 R1...
please solve in details. i will rate you up !
Problem 3 In the circuit shown below: a. Write a node equation at node 1 by summing the currents leaving node 1. b. Write a node equation at node 2 by summing the currents leaving node 2. c. Find V, and V2 by solving the two node equations. d. Find the currents IR, IR, IR3, IR4, Is. e. Find the power absorbed by R1, R2, R3, R4, and power released...
Problem 6. The circuit shown below initially has no charge on
the capacitors and the switch S is originally open.R1= 4Ω,R2=
6Ω,R3= 8Ω,R4= 8Ω,C1= 2μF, and C2= 6μF.
a) Just after closing the switch S, find the currents I1,I2,I3,
and I4.
b) After the switch has been closed a very long time, find the
currents I1,I2,I3, and I4.
c) After the switch S has been closed for a very long time, find
the potential at points A,B, C, and D....
Consider the circuit as shown below. R-2 92 Use Kirchoff's rules to calculate (a) the current through each resistor: Le. R1: [IR1] A R2: [IR2] A R3: [IR3] A R4: [IR4] A (b) the power supplied by each DC source;i.e. V1: [P1] Watts v2: [P2] Watts v3: [P3] Watts and (c) the power dissipated in each resistor; L.e. R1: [PR1] Watts R2: [PR2] Watts R3: [PR3] watts R4: [PR4] watts IR1 is equal to ?? Amps Answer: IR2 is equal...
= = In the circuit shown below E 75.0 V, R5 = 4.00 12, R3 2.00 2, R2 = 2.2012, 15 = 11.84 A, 14 = 9.21 A, and I1 = 7.52 A. Find the current through R2 and R3, and the values of the resistors R1 and R4. (Due to the nature of this problem, do not use rounded intermediate values in your calculations-including answers submitted in WebAssign.) 12 = A 13 = A R1 = 12 R4 12...
(TCO 4) For the circuit given in the figure below, obtain the
following quantities.
(a) Currents I1 and I3
(b) Power dissipated by the resistor R2
Assume VS1 = 15 V, R1 = 4.0 k?,
R2 = 9.0 k?, R3 = 6.0 k?, R4 = 12.0
k?
Problem 1: Use nodal analysis in the circuit below to find Va and V. Assume R1 10 , R2 = 4 2, R3 = 6 2, R4 6 2, I1 2 A, Vi 2 V, and V2 4 V R2 Vi R4 R3 V2+ Vi -WW ww
PROBLEM 2 (10 Points) Examine the circuit below. Write down the nodal equations in the simplified form. Take 30 volts and V2 = 30 volts. R1 = 15 Ω. R2 10 Ω, R3 25 Ω, R.: 10 Ω, Rs 20 Ω. Do not solve the equations. R3 R1 FB R2 2 V1+ vi+ V24 R5 Reference Node び
(20 points) Given the circuit schematic in the figure below where the 8mf of the ideal battery is 25V and the values of the resistors are R1- R2- R3-R4 1502 R2 R4 R1 R3 a) (4 points) Calculate the equivalent resistance of the circuit. b) (4 points) Calculate the potential drop across each resistor (c) (4 points) Calculate the current through each resistor. (d) (4 points) Calculate the power dissipated by each resistor. (e) (4 points) Using all of the...