dgallup
Automotive
- May 9, 2003
- 4,710
I'm trying to do a simple calculation to find the electrical resistance of a copper coil at a different temperature. I thought I knew the equation but to check I took my results an worked it backwards and got a different result than I started with. I did a web search and found several online calculators and which give the exact same result.
Here's what I've got:
copper coef. of resistivity alpha = 0.00393 /deg C
T1 -40 deg C
R1 5 ohms
T2 20 deg C
R2 = R1[1+alpha(T2-T1)] = 6.179 ohms
But when you back solve it
T1 20 deg C
R1 6.179 ohms
T2 -40 deg C
R2 comes out 4.715 ohms, not the 5 ohms I started with.
I can see what is going on here, in the first case the [1+alpha(T2-T1)] factor is 1.236, in the second case it is 0.764, multiply them together and you get 0.944 which is not equal to 1.000 so I don't come back to where I started. But it should. So what am I doing wrong?
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The Help for this program was created in Windows Help format, which depends on a feature that isn't included in this version of Windows.
Here's what I've got:
copper coef. of resistivity alpha = 0.00393 /deg C
T1 -40 deg C
R1 5 ohms
T2 20 deg C
R2 = R1[1+alpha(T2-T1)] = 6.179 ohms
But when you back solve it
T1 20 deg C
R1 6.179 ohms
T2 -40 deg C
R2 comes out 4.715 ohms, not the 5 ohms I started with.
I can see what is going on here, in the first case the [1+alpha(T2-T1)] factor is 1.236, in the second case it is 0.764, multiply them together and you get 0.944 which is not equal to 1.000 so I don't come back to where I started. But it should. So what am I doing wrong?
----------------------------------------
The Help for this program was created in Windows Help format, which depends on a feature that isn't included in this version of Windows.