Refer to Figure P3.43 and use the principle of super position to determine the component of the current i through
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Principles and Applications of Electrical Engineering
- Q3) For the network shown in the figure below, determine the following: a) fe b) Zinl and Zin2 c) Zo1 and Zo2 d) Avı, Av2, and AVT +20 V 6.8 kQ 30 ka 6.8 ka 30 ka 0.5 F 0.5 uF P-150 B- 150 1.5 ka 50 uF 1.5 ka 50 uFarrow_forwardO Given the information appearing in the Figure, Fird the level of resistance for Ri e R3. RI 3 o 14V Rgarrow_forwardWith 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_forward
- 3.16 plz solve and explain this examplestep by step plz avoid direct solutionarrow_forwardQ3. The circuit to study is shown in figure below, where V1 = 100/0° V, V2 = 50/60° V, and R₁ = 3 Q, R₂ = 50, R3 = 2, R4 = 50, R5 = 50, L5 = 12.8 mH, L6 = 6.4 mH ,C₂= 796µF and C3=796uF assume f=50Hz V1 R1 R5 R2 + Vx & L5 Monote R3 L6 mo V2 C3 R4 a) Apply the mesh current method to obtain a complete set of circuit equations, presenting your answer in matrix form; b) Compute the potential across and the current flowing through the L6 elements.arrow_forward3b For the circuit in Figure Q3(b), solve for Ix, Iy and Vz using superposition method.arrow_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_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_forwardfind Rt, It, Pt, P1, P2, P3P4,P5,P6arrow_forward
- LE424 QUESTION 3 a) Using resistor nearest preferred values (NPV), design a network as shown in Figure Q3a if Vcc = 25 V, Vc = 10 V, Ica = 3 mA and IcSATURATION) = 1.5lco. Determine the values of RB, Rc, and RE and state all assumptions made. Vcc lo Rc RB ovc Vo Co Vio B = 100 RE Zo Figure Q3aarrow_forwardDetermine, 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_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_forward
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