Ε1 + I b ww R₁ = 2.2 k E2 I d R₂ = 3.3 ΚΩ lx R3 = 2.0 ΚΩ W Vx Figure 3.0: Circuit with multiple voltage sources

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Please answer parts (i) and (ii) and include all calculations and steps, thank you so much!

Vx
(volts)
Th.
MS.
Ix
(mA)
Th.
E₁
MS.
+
b
R₁ = 2.2 k
Th.
Vx1
(volts)
E₂
MS.
Figure 3.0: Circuit with multiple voltage sources
Th.
F
R₂ =
3.3 ΚΩ
Ixı
(mA)
MS.
Vx2
(volts)
R3 =
2.0 ΚΩ
Th.
MS.
Th.
Ix2
(mA)
MS.
Vx=
VX1 + Vx2
Th. MS.
Table 4.0: Theoretical (Th.) and MultiSIM (MS.) results of the Figure 3.0 circuits
Ix =
IX1 + IX2
Th.
MS.
Transcribed Image Text:Vx (volts) Th. MS. Ix (mA) Th. E₁ MS. + b R₁ = 2.2 k Th. Vx1 (volts) E₂ MS. Figure 3.0: Circuit with multiple voltage sources Th. F R₂ = 3.3 ΚΩ Ixı (mA) MS. Vx2 (volts) R3 = 2.0 ΚΩ Th. MS. Th. Ix2 (mA) MS. Vx= VX1 + Vx2 Th. MS. Table 4.0: Theoretical (Th.) and MultiSIM (MS.) results of the Figure 3.0 circuits Ix = IX1 + IX2 Th. MS.
(i) For the circuit shown in Figures 3.0, consider the input D.C. source voltages, E₁ = 10V and E₂ =
4V (note the polarities of each source!). Determine the values of voltage, Vx and current, Ix using
either the nodal-voltage or the mesh-current analysis technique. Show your analysis below, and
record your results in Table 4.0.
(ii) For the same circuit shown in Figures 3.0 with the input D.C. source voltages, E₁ = 10V and E₂ =
4V, apply the Superposition Principle technique as follows:-
1.
Remove input source, E₂ and replace it with a short-circuit by connecting a wire between
"c" and "d". Determine the resultant voltage, Vx₁ across R3 and current, Ix₁ through R3.
Show your analysis below, and record the results in Table 4.0.
2. Connect input source, E2 in its original place between "c" and "d". Be mindful of the
polarity connections. Then remove input source, E₁ and replace it with a short-circuit by
connecting a wire between "a" and "b". Determine the resultant voltage, Vx2 across R3 and
current, Ix2 through R3. Show your analysis below, and record the results in Table 4.0.
Transcribed Image Text:(i) For the circuit shown in Figures 3.0, consider the input D.C. source voltages, E₁ = 10V and E₂ = 4V (note the polarities of each source!). Determine the values of voltage, Vx and current, Ix using either the nodal-voltage or the mesh-current analysis technique. Show your analysis below, and record your results in Table 4.0. (ii) For the same circuit shown in Figures 3.0 with the input D.C. source voltages, E₁ = 10V and E₂ = 4V, apply the Superposition Principle technique as follows:- 1. Remove input source, E₂ and replace it with a short-circuit by connecting a wire between "c" and "d". Determine the resultant voltage, Vx₁ across R3 and current, Ix₁ through R3. Show your analysis below, and record the results in Table 4.0. 2. Connect input source, E2 in its original place between "c" and "d". Be mindful of the polarity connections. Then remove input source, E₁ and replace it with a short-circuit by connecting a wire between "a" and "b". Determine the resultant voltage, Vx2 across R3 and current, Ix2 through R3. Show your analysis below, and record the results in Table 4.0.
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