Question

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Question 1
For the diagram above, the following voltages are specified:
vAvDvEvGvHvab=3V=1V=2V=2V=−2V=1V
v A
​
v D
​
v E
​
v G
​
v H
​
v ab
​
​
=3V
=1V
=2V
=2V
=−2V
=1V
​
Here, v_{ab}v ab
​
indicates the voltage referenced from node b to node a. In other words, imagine v_{ab}v ab
​
being identified in the diagram as having a "-" at node b and a "+" at node a. The other voltages are specified using the labeled references.
Question 3
For the same circuit, find v_Fv F
​
in units of volts. Enter your answer in the space below without the units.

Answer 1

Answer:

Require lengthy offline/ batch training. Do not learn incrementally or interactively, in real-time. Poor transfer learning ability, reusability of modules, and integration. Systems are opaque, making them very hard to debug

Answer 2

Answer:

Question 1 : VC = ?

VC = VB + VE = VD - VF (parallel)

Vab = VA + VB+ VG

      1 = 3 + VB + 2

VB = -4

VC = VB + VE(parallel)

 VC   = -4 + 2 = -2

Question 2 : Vac = ?

Vac = VA + VD + VH = 3 + 1 -2 = 2

Question 3 : VF = ?

VC = VD - VF

VF = VD - VC = 1 + 2 = 3

Note: (why VC = VD - VF? If you look carefully at the circuit diagram you can see that VF towards ( - to +)

Explanation: