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Use nodal analysis to find node voltages
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Principles and Applications of Electrical Engineering
- Write the Loop-current equations for the circuit below. Then, determine the values of i, iz and i3. 50 10 30 V 15 V wwarrow_forward4- In the circuit in following figure, obtain y 1, v2, and v3. 15 V 25 V 10 V 20 Varrow_forwardRefer to the given circuit below. Using Superposition Theorem, determine the percent contribution of E₁ to the current through R3 (lbc)- R3E1 % contribution = x 100 R3E1+1R3E2+¹R31 R1 R2 R3 R4 E₁ E2 T 8 Ω 6Q 4Q 7 V 11 V 5 A R₂ C ΤΩ R₁ E₁ a b R3 RA E₂arrow_forward
- 8-13 E (a) Formulate mesh-current equations for the cir- cuit in Figure P3-13. (b) Formulate node-voltage equations for the circuit in Figure P3-13. (c) Which set of equations would be easier to solve? Why? (d) Using MATLAB, find , and i, in terms of the mesh- current variables. SSarrow_forward3.40 Find Vi and V in the circuit shown in Figure P340. FIGURE P3.40 2 kn R2 V2 4 kn 2000 i 5 V 3 kn 2.5 k 45arrow_forwardQ3: Suppose that the components of the circuit shown in figure below have the following values: RI= SkD, R2= 9kΩ, R3-10kΩ , R4-5kΩ, R5-10kΩ, R6-9k Ω. The voltage across AB is measured by a voltmeter whose internal resistance is 95k2. What is the measurement error caused by the resistance of the measuring instrument? R3 Rs RM Ri SMA Fo Em Ry Barrow_forward
- Consider the series-parallel circuit shown in the figure below with various multimeters connected in the circuit. Assum that XMM1 has been configured in ammeter mode, and XMM2 has been configured in voltmeter mode. XMM1 R1 1kQ XMM2 R2 R3 V1 1kQ 1kQ 12V 3.1: Redraw the circuit replacing XMM1 and XMM2 by their equivalent circuit models 3.2: Assume that XMM2 was incorrectly configured in ammeter mode. Redraw the equivalent circuit from 3.1 and compute the current that would be measured by the ammeter in this scenario. Hil-arrow_forwardAccording to the circuit and parameters given in the figure, make your calculations and write the table. wmww w n ww bbn m w w w w Please fill in. www ww w +12V +12V M1 M2 2kN 10kN K ImA/V² 0.5mA/V² VTH 2V 1.5V 22kN M2 MODE 33k2 M1 Ip 1kN VGS Vps K1=lmA/V² Vth1=2V; M2: K2=0.5mA/V² VTH2=1.5Varrow_forwardFind the Thevenin equivalent circuit to the LHS of AB of the DC network in Figure Q2. From the resulting Thevenin equivalent circuit find the Norton equivalent circuit. RI 300 Ω E 20 V R2 900 £2 Figure Q2 ww R3 -400 £2 www R4 250 Ω B RLarrow_forward
- Refer to the given circuit below. Using Superposition Theorem, determine the percent contribution of I to the current through R3 (lbc). IR31 % contribution = x 100 1 +1 +1 R3E1 "R3E2 R3 R4 E1 E2 I 6Q 1Q 9 V 7V 3A a R31 R1 2Q R1 R2 1Q E₁ R2 C b R3 R4 E2arrow_forwardWrite equations for the circuit in the figure using generalized node voltage method. Vo R3 R2 1:n ai,arrow_forwardUse the Principle of Superposition to determine the current i through R3 in the Figure. Let R1 = 100, R2 = 40, R3 = 20, R4 = 20, R5= 20, Vs 10 V, Is = 2A. ww VS R3 ww wwwarrow_forward
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