The junction rule describes the conservation of which quantity? Note that this rule applies only to circuits that are in a steady state.                  a. charge     b. voltage      c. resistance Part B) Apply the junction rule to the junction labeled with the number 1 (at the bottom of the resistor of resistance R2). Answer in terms of given quantities, together with the meter readings I1 and I2 and the current I3.            Answer=ΣI=0 = Part C) Apply the loop rule to loop 2

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Part A) The junction rule describes the conservation of which quantity? Note that this rule applies only to circuits that are in a steady state.

                 a. charge     b. voltage      c. resistance

Part B) Apply the junction rule to the junction labeled with the number 1 (at the bottom of the resistor of resistance R2).

Answer in terms of given quantities, together with the meter readings I1 and I2 and the current I3.
           Answer=ΣI=0 =
Part C) Apply the loop rule to loop 2 (the smaller loop on the right). Sum the voltage changes across each circuit element around this loop going in the direction of the arrow. Remember that the current meter is ideal.
Express the voltage drops in terms of Vb, I2, I3, the given resistances, and any other given quantities.
           Answer=Σ(ΔV)=0 =
Part D) Now apply the loop rule to loop 1 (the larger loop spanning the entire circuit). Sum the voltage changes across each circuit element around this loop going in the direction of the arrow.
Express the voltage drops in terms of Vb, I1, I3, the given resistances, and any other given quantities.
            Answer=Σ(ΔV)=0=
Figure
Loop 1
ww
(A₁
ww
R₁ R₂
(A₂)
Loop 2
2
<
1 of 1
-R3
Transcribed Image Text:Figure Loop 1 ww (A₁ ww R₁ R₂ (A₂) Loop 2 2 < 1 of 1 -R3
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Part D) Now apply the loop rule to loop 1 (the larger loop spanning the entire circuit). Sum the voltage changes across each circuit element around this loop going in the direction of the arrow.

Express the voltage drops in terms of Vb, I1, I3, the given resistances, and any other given quantities.
            Answer=Σ(ΔV)=0=

It is still saying incorrect because the correct answer does not depend on: I2, R2. Can you explain why that is and what the correct equation would be?

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For part D. Vb has to be part of the equation not = to it. The equation including Vb, R1, I1, R2, and R3=0. Would the equation be Vb-equation or +. Or is it -Vb.

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