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  • #16
    Copper resistance VS. temperature

    I searched on "copper temperature coefficient" and found this:

    Copper's resistivity temperature coefficient is
    ~0.217% per degree Fahrenheit, and
    0.393% per degree Celsius.

    For perspective, running the numbers on a 4000 ohm copper coil,
    you see about 9 ohms change for every degree difference from 68F.

    58F 3913 ohms (-2.17%)
    59F 3922 ohms (-1.95%)
    60F 3931 ohms (-1.73%)
    61F 3939 ohms (-1.52%)
    62F 3948 ohms (-1.30%)
    63F 3957 ohms (-1.08%)
    64F 3965 ohms (-0.87%)
    65F 3974 ohms (-0.65%)
    66F 3983 ohms (-0.43%)
    67F 3991 ohms (-0.22%)
    68F 4000 ohms (0.00%)
    69F 4009 ohms (0.22%)
    70F 4017 ohms (0.43%)
    71F 4026 ohms (0.65%)
    72F 4035 ohms (0.87%)
    73F 4043 ohms (1.08%)
    74F 4052 ohms (1.30%)
    75F 4061 ohms (1.52%)
    76F 4069 ohms (1.73%)
    77F 4078 ohms (1.95%)
    78F 4087 ohms (2.17%)

    -drh
    He who moderates least moderates best.

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    • #17
      So if we play guitar on the Sun, we'd have really hot output pickups... or just really hot everything!

      On the other extreme, I wonder what cooling a pickup with liquid nitrogen would do... we could have super conducting pickups!
      It would be possible to describe everything scientifically, but it would make no sense; it would be without meaning, as if you described a Beethoven symphony as a variation of wave pressure. — Albert Einstein


      http://coneyislandguitars.com
      www.soundcloud.com/davidravenmoon

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