Why is R1 Open in Short Circuit?

In summary: DC voltage is.In summary,The R1 branch is bypassed by a short, and there is no current flow because both terminations are shorted. The inductor in the R1 branch turns into a short in DC steady state.
  • #1
peripatein
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0
Hi,
Would someone care to please explain why no current passes through R1 (see attachment) in case Vs is replaced with a short and the inductor is considered a short too (in the steady state, for DC)? Why would the R1 branch be open and not short? Is it not in parallel with short under the above circumstances?
 

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  • #2
If Vs is replaced with a short, what is the voltage across R1?
 
  • #3
Yes, it is parallel with short so both termination of the resistor have the same potential. Therefore there is no current.
 
  • #4
Why open? Doesn't zero potential mean short, rather than open? You can measure a potential between two terminations of an open branch, and the answer would not necessarily be zero. Whereas open means infinite resistance, hence current is zero.
 
  • #5
It isn't open but bypassed by short.
 
  • #6
Alright, so let me ask this then: when may a component in parallel with short be rendered a short?
 
  • #7
This is not short nor open. Just: no potential difference = no current.
 
  • #8
I got that, I am now asking a more general question, namely: when does a short turn a component in parallel to it into a short? In other words, if I take a component and connect it in parallel to a short - under what circumstances will that component, for calculation purposes, may be considered a short?
 
  • #9
Under any circumstances.
 
  • #10
Well, why isn't that then what we have in the circuit in the attachment? Isn't R1 in parallel to a short? Following that reasoning why won't it then be considered a short itself, for calculation purposes?
 
  • #11
I think there is a slight misconception thinking of the situation as either a short or an open. An open can have a potential difference but no current flows, a short has no potential difference but has current flow.

In the R1 branch you have both no potential difference (because the two ends are connected by a short) and no current flow (because all the current flow will take the short due to it having less resistance).
 
  • #12
For calculation purposes you can replace it with a short. This branch doesn't affect rest of the circuit.
 
  • #13
But if the resistor is considered a short (or may be considered a short), then both the branch with the inductor is a short and the branch with R1. Therefore, why would the current "prefer" flowing through the branch of the inductor? I mean, are they not both merely wires (for calculation purposes)?
 
  • #14
No, you treat whole part of circuit with inductor and resistor as a short. Current flows through inductor - because it is a short for DC - and doesn't flow through resistor.
 
  • #15
Please don't get annoyed by all my questions (in case you are); am simply trying to understand this properly.
Didn't you just write that the resistor may be considered a short as well? Why won't the current consider both the resistor and the inductor to be a short? If it does, why then would the inductor (now a short, but so is the resistor) get current and not the resistor (if they are both a short then both of them have zero resistance)?
 
  • #16
I'm not annoyed :smile: Inductor has no DC resistance so it is a real short. This causes no voltage on resistor and thus no current. So you can get rid of resistor and nothing changes in the rest of the circuit. This is what I mean.
 
  • #17
I think I truly got it now. Thank you very much! :-)
 
  • #18
When using superposition in this case, the AC voltage source is shorted. The inductor in that branch also turns into a short in DC steady state.

So when current travels from the DC source, it first sees the cap which is an "open" in steady state DC. So it ignores it and travels to VA. At VA it has a choice between a non resistive wire and a resistor. It surely takes the path of zero resistance and has no interest in the resistor. So the short we just created has zero resistance, so there is no voltage there. Since it's parrallel to that resistor, there is zero voltage acrross resistor, therefore zero current thru resistor R4 according to V=IR.

Lets do current division as well. We'll call your inductor and VS sources (now shorted for superpostion) R0.

So we have R4=10 ohms and R0=0 ohms.

Let's just say that the current heading into node VA from DC source is 5 amps (just random guess for this exercise)

So current division thru R4 would be:
5*(0/(10+0)= 0 current thru R4.

So that's the DC case. The VAC source is going to put current thru each and every branch!
 
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  • #19
That was a very clear explanation. Thank you, psparky!
 
  • #20
I should have figured the exact amps coming from DC source...is very simple in the case.

It's just going to be 10 volts/50 ohms which equals .2 amps leaving DC source...and .2 amps going back to source. (KCL)

50 ohms is the only resistance it encounters in this loop.
 
  • #21
It is important that this theoretical discussion - not be taken too far. ANY real system will have a non-zero resistance/impedance. So asking too many "what if" cases for a theoretical position is pointless, if not counter productive, because you may "learn" something that you later apply to a real world case and be led astray by your thinking.
 
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1. Why does R1 open in a short circuit?

In a short circuit, there is a low resistance path for the current to flow through. This causes a high amount of current to flow through the circuit, which can overload and damage the components. R1 may open in a short circuit as a protective measure to prevent this damage.

2. Can R1 be closed in a short circuit?

In most cases, R1 cannot be closed in a short circuit. This is because the high amount of current flowing through the circuit can damage R1, making it unable to function properly even after the short circuit is fixed.

3. What is the purpose of R1 in a circuit?

R1 is often used as a current-limiting resistor in a circuit. It helps to regulate the amount of current flowing through the components and prevent them from getting damaged due to overload.

4. Can R1 be replaced or bypassed in a short circuit?

In some cases, R1 can be replaced if it gets damaged in a short circuit. However, it is not recommended to bypass R1 in a circuit as it serves an important purpose of regulating the current flow and preventing damage to other components.

5. How can I prevent R1 from opening in a short circuit?

To prevent R1 from opening in a short circuit, it is important to ensure that the circuit is designed properly and that all components are functioning correctly. It is also important to use the appropriate resistance value for R1 to prevent it from getting damaged in case of a short circuit.

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