Does the length of a wire affect its resistance?

AI Thread Summary
The length of a wire directly affects its resistance, as resistance is proportional to length according to the formula R = ρL/A, where ρ is resistivity, L is length, and A is the cross-sectional area. Longer wires can encounter more material, leading to increased resistance, but external factors like temperature and power quality can also impact resistance. It's important to differentiate between resistance and impedance, as they are distinct concepts. Conductors are typically installed according to a plan, meaning longer runs do not inherently face more external issues than shorter ones. Understanding these principles is essential for effective electrical design and troubleshooting.
Zoey
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Hello,

I would think that it would, because if the wire is longer there is more of a chance of their being foreign objects interfering, which could cause resistance, right? Or no?
 
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Yes, the resistance is directly proportional to the length.
 
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Dale said:
Yes, the resistance is directly proportional to the length.
Thanks! :smile:
 
Just for info... The same applies to thermal resistance. The thicker the insulation the longer the path heat has to travel and hence the higher the thermal resistance.
 
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CWatters said:
Just for info... The same applies to thermal resistance. The thicker the insulation the longer the path heat has to travel and hence the higher the thermal resistance.
Thank you, that is definitely handy to keep in mind :smile:
 
Just for completeness, the equation for the resistance of a wire is R = ρL/A where

ρ = the resistivity
L = the length
A = the cross sectional area
 
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pixel said:
Just for completeness, the equation for the resistance of a wire is R = ρL/A where

ρ = the resistivity
L = the length
A = the cross sectional area

Thanks! A formula is definitely something handy to have on hand :biggrin:
 
No conductor is perfect (yet). The more material that current must pass through, the more resistance.

External factors that increase resistance or impedance are ambient temperature, power quality issues (harmonics, reflected sine waves, phase imbalance), and other electrical conductors and devices. All of these can cause excessive heat.

Generally conductors are run according to a plan, so a longer run is no more likely to encounter external problems than a shorter run if they are both run according to the same plan.
 
Chris1983 said:
External factors that increase resistance or impedance

don't confuse resistance and impedance ... they are very different beasts
Impedance has nothing to do with the question/topic of this thread :smile:Dave
 

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