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Use the principle of super position to determine the power P supplied by
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Principles and Applications of Electrical Engineering
- Determine, using superposition, the voltage acrossR in the circuit of Figure P3.41.IB = 12 A RB = 1 ΩVG = 12 V RG = 0.3 ΩR = 0.23 Ωarrow_forwardUsing the figure be below, a) Calculate P3 (in W). and b) Find the total power (in W) supplied by the source.arrow_forwardUsing KCL, perform node analysis on the circuitshown in Figure P3.24, and determine the voltageacross R4. Note that one source is a controlled voltagesource! Let VS = 5 V; AV = 70; R1 = 2.2 kΩ;R2 = 1.8 kΩ; R3 = 6.8 kΩ; R4 = 220Ωarrow_forward
- With reference to Figure P3.43, usingsuperposition, determine the component of the currentthrough R3 that is due to VS2.VS1 = VS2 = 450 VR1 = 7Ω R2 = 5Ω R3 = 10Ω R4 = R5 = 1 Ωarrow_forwardDetermine the branch currents, using KVL andloop analysis in the circuit of Figure P3.35.VS2 = VS3 = 110V VS1 = 90 VR1 = 7.9 ΩR2 = R3 = 3.7 ΩRW1 = RW2 = RW3 = 1.3 Ωarrow_forwardWrite the Loop-current equations for the circuit below. Then, determine the values of i, iz and i3. 50 10 30 V 15 V wwarrow_forward
- (b) Prove the circuit in Figure Q.5 can perform the operation of adder/subtractor by completing Table Q.5. -Sub FA FA FA FA Figure Q.5 Table Q.5 B[3:0] Sub A[3:0] C4 S[3:0] Operation 0111 1000 1 0111 1000arrow_forwardThe input to the circuit in Figure P 3.6-25 is the voltage of the voltage source vs. The output is the current measured by the meter i.. Show that the output of this circuit is proportional to the input. Determine the value of the constant of proportionality. ww Us 2Ω Figure P 3.6-25 40 Ω www 10 92 ia 20 Ω Ammeter iof 40 Ω 50 iaarrow_forwardIn the circuit shown in Figure P3.5, the source andnode voltages areVS1 = VS2 = 110 VVA = 103 V VB = −107 VDetermine the voltage across each of the five resistorsarrow_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_forwardSolve by ohm's law or Kirchhoff's law's Q3: For the circuit shown in the figure. a. Detemime the currents I, I,. b. Find the voltage V, across the 202 resistor. c. Detemine the dissipated power across the 52 resistor I 50 I-A 500V V, 202 51 O Shot by Hisense H12arrow_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
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