Resistors in Parallel or Series?

In summary: You should see that the resistors are neither strictly in series nor strictly in parallel but a combination of both.In summary, the given circuit is a simple circuit that requires redrawing for clarification. By labeling the nodes and redrawing the circuit, it can be seen that the resistors are not strictly in series or parallel, but a combination of both. This exercise is designed to show how seemingly complex circuits can be simplified by focusing on connectivity and not the location or shape of the circuit elements.
  • #1
DaynaClarke
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0
Homework Statement
Three Resistors of magnitude R each are arranges in a circuit, as seen in the figure (added below).
Calculate the resistance of the circuit between points A and B.
Relevant Equations
If they're in parallel, I have 1/R_t = 1/R + 1/R + 1/R
If they're in series, I have R_t = R + R + R

Other potentially helpful things:
V=IR
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Given that they're all on the same branch, I had assumed that they were in series with one another. But with the middle resistor having being on the middle of three branches, it looks parallel.

Like I said, I have a feeling it's in series (making the answer 3R).

This question is from a past paper that I cannot get the solutions to due to policy reasons. It's worth 15 marks out of 180, so both of these answers seem too simple.

Any help is appreciated, thanks!
 
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  • #2
This is a VERY widely used simple circuit that simply requires redrawing for clarification. Don't keep looking at the circuit the way it is, redraw it. That's the point of the exercise, to see how sometimes seemingly complex circuits (a bit of an exaggeration) can be simplified.
 
  • #3
You may want to clarify in your mind what exactly it means for two resistors to be in parallel or in series. When you look at that circuit, you should be able to immediately conclude that none of the resistors is in series with any of the others. (Note that this does not imply they're in parallel.)
 
  • #4
I would start by working out how many nodes there are. Label them A B C etc. Also number the resistors R1 R2 etc

Then make a new drawing starting with just dots representing the nodes instead of lines/wires.

Connect the resistors between the dots. Then think about which are in parallel or series.
 
  • #5
In addition to labeling nodes by a letter, one can also label the nodes by color-coding each piece of wire a distinct color...
where each color represents are generally different electric potential (a different voltage reading from ground). If you cross over a circuit element, you start a new color.

Focus on connectivity (how one end of a circuit-element is connected to another circuit-element)...
not on the location of circuit-elements or on the shape of the connecting wires.

As suggested above, it might help to redraw the diagram
  • circuit-elements may be repositioned and
  • connecting-wires can be reshaped (even stretched out or crumpled up into a point)
  • ...but do so without changing the connectivity.
As @vela suggests... it's not "either Parallel or Series".. it's generally "Parallel, Series, or Neither".
 
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  • #6
You have received a lot of good advice here to which I will add my bit. Straight in lines in circuit diagrams can be interpreted as equipotentials, i.e. there is zero potential difference along any straight line segment until a circuit element (resistor, capacitor, battery, etc.) is encountered. Nodes don't count as circuit elements. I suggest that you label with letters the nodes in the circuit you are given. Use A, B and possibly C, D and so on but make sure that nodes at the same potential are labeled with the same letter. Then redraw the circuit as @phinds and @robphy already suggested.
 

1. What is the difference between resistors in parallel and series?

Resistors in parallel are connected side by side and have the same voltage across them, while resistors in series are connected end to end and have the same current passing through them.

2. How do I calculate the total resistance of resistors in parallel?

To calculate the total resistance of resistors in parallel, use the formula: 1/Rt = 1/R1 + 1/R2 + ... + 1/Rn, where Rt is the total resistance and R1-Rn are the individual resistances.

3. Can I mix different values of resistors in parallel or series?

Yes, you can mix different values of resistors in parallel or series. However, keep in mind that the total resistance will be different than if all the resistors were the same value.

4. How does adding resistors in parallel affect the current?

When resistors are added in parallel, the total resistance decreases, which means the current will increase. This is because there are more paths for the current to flow through.

5. What happens if one resistor in a series circuit fails?

If one resistor in a series circuit fails, the entire circuit will stop working. This is because the current can no longer flow through the circuit without that resistor. However, in parallel circuits, the other resistors will still function if one fails.

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