Temperature/Resitance Relation?

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The discussion centers on the temperature-resistance relationship described by the formula \(R=R_{20}(1+\alpha T+\beta T^{2})\), where \(\alpha\) and \(\beta\) are coefficients that vary based on experimental conditions. Specifically, values of \(\alpha = 5.24 \times 10^{-3}\) and \(\beta = 7 \times 10^{-7}\) were used to calculate the temperature of a cathode. This equation is identified as a phenomenological model, derived from a truncated Taylor expansion, and is supported by theoretical explanations involving electron-phonon interactions. The discussion references the Wikipedia article on resistivity for further theoretical context.

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Berdi
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In a few of my undergraduate lab sessions, we have been given a formula in the lab script;

[tex]\[R=R_{20}(1+\alpha T+\beta T^{2})\][/tex]

Where Alpha and Beta have varied depending on the experiment.For example, to calculate the temperature of a cathode, at resitance R, [tex]\[\alpha \][/tex] was 5.24x10-3 and [tex]\[\beta\][/tex] was 7x10-7 (this was in degrees).

What actually is this equation? I'm curious to see where it's come from.
 
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First of all, it looks like a phenomenological equation, i.e. a simple truncated Taylor expansion in the temperature, where the coefficients would be determined by fit with experiment.

Anyway, it is explained also by theory. Check this out (the section "Temperature dependence"):

http://en.wikipedia.org/wiki/Resistivity

A quote: "electron–phonon interactions can play a key role"

Torquil
 

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