Calculating resistivity from relaxation time.

solas99
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Given the following data on copper, how do i calculate the resistivity?

Relaxation time: 2.50e10-14s
Density: 8940Kgm-3
molar mass: 63.5g

is there an equation for it.
 
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the formula for the conductivity \sigma is given by

\sigma = \frac{ne^2 \tau}{m} where n is the density, e is the electrical charge, \tau is the relaxation time and m mass of the electron. From here you should be able to find the resistivity.
 
i did the calculation, i got: 1.6e-3 Ohmm is that correct, or am i missing something.
thanks for quick reply
 
If we used the same metal (copper) in hall probe to measure the magnetic field, how can i calculate the hall coeficient of copper and the magnetic field acting on copper.

thickness 100um
hall voltage 0.1uV
current 1.5 A
 
i am a bit confused, is there a reason why the molar mass isn't in the equation?
 

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