essment Criteria 1.2,1.3,1.5 ing the circuit below, answer the following questions. Use Kirchhoff's laws to compute the voltage Vout across the 4.7k resistor. Clearly state the Maximum Power Transfer Theorem. Calculate the value of R required for maximum power transfer.
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would you please solve with Kirchhoff's laws circuit probleme
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- a) Consider the DC circuit below. Use the principle of Superposition to determine the following circuit parameters: i. The current through R1 ii. The voltage across R1 iii. The current through R3 iv. The voltage across R3 v. The voltage across R2 vi. The power dissipated in R2 Please answer all subpart either dislike is ready Please answer in typing format please ASAP for the likethe adjoining figure. This lamp can withstand a maximum voltage 3.0 v 0.4 9. Volt-ampere (V-I) charaeteristics of an incandescent lamp 16thd in and a maximum current 0.4 A. An infinite ladder network consisting a large number of these lamps is also shown in the figure given belo How much maximum voltage can be applied between the terminals A and B, so that no lamp gets damaged? (Use V5 = 2.2). Ans:x4.2V Hint: Curentin all bulls except first is4. Use the diagram to answer the questions that follow. 4. J1 13 J2 R3 R2 R5 15 L1 14 R4 L2 L3 81. In 82 R1 D 11 a. Write the junction rules for J1 and J2 according to the circuit diagram in terms of the currents Ij thru I5 J1: J2: b. Write the loop rules for L1, L2, and L3 (Loop 1,2, and 3) according to the diagram. Go Clockwise as shown. L1: L2:What is the difference between the cut-off voltage VGS0 f and the narrowing voltage Vp? Explain this with the diagram1. Using Series-Parallel concept, Find the following for the given circuit. The value of the power supply and resistances are given in Page-4. a) the current supplied by the source b) the voltage drops across each resistor c) the r dissipated by R3 R1=45kn R2=2kn R3=22kQ R4=14kn R5=17kn R6=85kn V1=24 v R₁ R₂ V₁ R₂ R₂ R₂Assume a 30-ko load resistor is added to the circuit as shown. Calculate the loaded voltage Via. Record the calculated value in the table below. R1 100kO 12V R2 300kO RL Vu 30KO Construct the circuit using MultiSim. Energize the circuit and measure Vi.. Record the measured value in the table below. De-energize the circult. Calculated (V) Measured (V) Parameter VNLI V: Using measured values, calculate the percent voltage regulation for this circuit. VNL1 - VL1 %(VR), = x 100% Calculate the ratio R/R; for this circuit. RL R2Procedure: Vcc = 20V 1. Connect the circuit shown in Figure. 2. Measure VB, VE, VC and VCE R, = 22 k2 3. Measure the voltages VR1 and VR2. Calculate the currents 11 and 12 using Ohm's Law. Rc = 3 k2 4. Using Kirchhoff's current law, calculate the current IB. Then, measure the currents IE and IC values. IB R, = 6.8 k2 1, IE %3D RE = 680 2 5. Confirm that IB calculated using KCL is equal to the IE-IC 6. Please come out with your own tables to record the measured data. www wwKirchhoffs Law find all the currents through the resistors in milli Amperes and the voltage drops across all the resistors. Steps: a) redraw the circuit with the voltages and currents labeled for each of the respective resistors. b)solveI am very confused with this problem, I know that I have to reduce the circuit, and we will end up with 2 resistor 1 in each side and the current in the middle, I know that I have to use current division, how do I know according to this problem which Z1 and Z2 will be. The io is on the right side.. The io will be the same in the left and right side... I need steps for this problem pleaseShown 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.Find the Power Dissipated in the load resistance R5 (Power of R5) by using the Mesh Current Method. Student numbers from 180207003 up to 180207037 (including) 1=4A Student numbers from 180207039 up to 190207076 (including) 11=1A V1=10 V V1=4 V V1 R2 R4 out1 out2 R3 4. 11 R1 R5 10 B1 1 V=5*V(out1)Which of the following statements are correct for the circuit below? Thanks to the capacitors I – C1 and C2, the voltage gain of the circuit increases. II – Capacitors C1 and C2 are coupling capacitors and provide an isolation function between AC and DC voltages in the circuit. Thanks to the III – RE resistor, the voltage gain of the circuit increases. Thanks to the IV – RE resistor, the stability of the circuit increases. The V – C3 Capacitor is a bypass capacitor and prevents the loss of voltage gain. Capacitor VI – C3 is a coupling capacitor and has no effect on the voltage gain in the circuit. VII – As the value of the source internal resistance Rs increases, the voltage gain decreases. VIII – The voltage gain decreases as the value of any RL load to be added to the circuit increasesSEE MORE QUESTIONS