How Do You Calculate Equivalent Resistance in a Complex Circuit?

AI Thread Summary
To calculate equivalent resistance in a complex circuit, start by identifying series and parallel resistor configurations. The series resistance is the sum of the resistors, while the parallel resistance is calculated using the formula 1/R = 1/R1 + 1/R2. In this discussion, the challenge arises from a resistor placed in an unconventional position, leading to confusion about how to simplify the circuit. Redrawing the circuit can help clarify the relationships between resistors and simplify calculations. Ultimately, visualizing the circuit correctly is crucial for determining the equivalent resistance accurately.
oreosama
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Homework Statement



Hi, this was an extra credit problem on a test I had that I think I remember correctly

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Given R find R equivilent of the circuit

Homework Equations



Series R1, R2 = R1 + R2
parallel R1, R2 = (1/R1 + 1/R2)^-1

The Attempt at a Solution



Never encountered a resistor in an awkward spot as the middle is, so I tried saying this:

since the upper path to Vb is an open wire it has Vo and the bottom path much match. To do this the voltage across these two must be 0 so we can just ignore them. From there you just have a parallel set left so

1/R + 1/2R = 3/2R -> 2R/3 = Req
 
Last edited:
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Hi oreosama. From the left end of that 2R resistor, I see two parallel paths to get to point b.
 
ive always understood parallel/series as a visual type thing. youre saying 1/R + 1/3R = 4/3R -> 3R/4 ? I Have no idea what this does to the circuit, as in where this combined resistor would be.. relative to the middle one still standing
 
I suggest that you redraw the circuit, drawing that middle resistor so this its symbol, too, is horizontal. Then connect the ends so electrically the circuit is identical with what you are given. Now, tidy it up so it looks like a neat circuit.

You might need to do this a couple of times, before you see how it simplifies.
 

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