Using Node-Voltage Method, find the node voltages for nodes 1 and 2 in the following circuit: IA 20 70 4A
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- i've already seen this solution. but regardless, i askedfor an explanation. i always have a big issue with understanding how to do nodal analysis in these type of circuits, how to name nodes and on what basis. how was the outgoing current 0-v0/3r and how do i identify it and in the incoming current. how to use voltage division rule here. so please annotate everything on the figure and help me understand all my above inquiries so i can understand how to solve these type of questions. thank you! please be extremely detailed and concise. also when can i and can i not use nodal analysis and voltae division ruleFor R1=9, R2=1, R3=1, R4=1 and 15-13.5 A in the shown circuit, use current divider to find the following: 15 i1 (in Ampere) = a. 10.125 b. 0.48214285714286 c. 10.125 d. 3.375 i2 (in Ampere) = a. 5.6410714285714 b. 4.3392857142857 c. 1.125 d. 2.475 i3 (in ampere) = RI i4 (in ampere) = R2< 1₂ R32 13 R4 isCreate this circuit in tinker caduse, Resistors, powersupply, and multimeter if possiblecomputational answers:( i have already solved this using mesh analysis i just need the simulation in tinker cad that shows this answers in the powersupply) Ia=0.1441 AIb=0.2 AIc=0.01162 A
- Using NODAL VOLTAGE ANALYSIS, solve Vy and Vx and voltages across EACH RESISTOR. Put signs on each resistors in the figure and draw the flow of currentUse the polarities provided in Figure to compute for the voltages Using the circuit below: a. Find the voltage across each resistor and find the voltage in the open part b. Find the total current leaving node c R1 R3 + + A 10kQ B 5.6kN + R2 1.2kQ + R8 - R4 + C F 8.2kQ G 4.7kQ + R7 1.8kQ 23V E + R6 R5 + 1.5kQ 3.3kQOCX elp VCC VEE 6V 3V R2 A R1 2kQ 2kQ R5 2kQ a) Find the voltage at point A due to VCC only. b) Find the voltage at point A due to VEE only. c) Find the voltage at point A when both are activated.
- What is the difference between the cut-off voltage VGS0 f and the narrowing voltage Vp? Explain this with the diagramFor the voltage divider circuit shown, find R2 in 0 when Vs = 6 V and Vd -3.8 V and R1=1,462.902? R1 Vs VD R2Consider four resistors in parallel connection: R1 = 3520.45 Q, R2 = 33.09 Q, R3 = 1484.22 Q and R4 = 11.83 Q. What is the equivalent resistance? R2 R3 R RT O 11.24 O 7.78 19.88 O 8.64 O 6.91
- Hello Please help me to determine the individual contribution of the: I1 current source to Vx and V1 voltage source to Vx. I got Vx(I1)= 0.0863V and Vx(V1) =1.4186V but I'm not sure about my answers.Shown in the figure below is an electrical circuit containing three resistors and two batteries. I₁ 0= 4 + L . ww R3 R₂ ww 1₂ R₁ ww Write down the Kirchhoff Junction equation and solve it for I, in terms of I₂ and I3. Write the result here: 1₁ = 12-13 R₂=552 R₂ = 132 13 Write down the Kirchhoff Loop equation for a loop that starts at the lower left corner and follows the perimeter of the circuit diagram clockwise. - IzR3 − LR₁ + 14 + 10 Write down the Kirchhoff Loop equation for a loop that starts at the lower left corner and touches the components 4V, R₂, and R₁. 0 = 4-1₂R₂-11R₁ The resistors in the circuit have the following values: R₁ = 12 Solve for all the following (some answers may be negative): I₁ = 27.78 X Amperes 1₂ = 28.84 X Amperes 13 = 1.060 X Amperes NOTE: For the equations, put in resistances and currents SYMBOLICALLY using variables like R₁,R₂,R3 and 11,12,13. Use numerical values of 10 and 4 for the voltages.Question 2 (a) For the RCL circuit as shown in Figure Q2(a), determine the i. impedance at a frequency of 50 Hz. ii. power factor. R 24 Q 36 mH 120 µF Figure Q2(a)