But in the temperature scale, what makes the temperature add or subtract?
It's concentration or diffusion which affects gravity which then generates heat or lack of it.
So you could use concentration in place of addition and diffusion in place of subtraction.
Then use relative ratios of material change in place of numbers and rates in place of bases.
So instead of "base 10" the base is variable and dependent on relative time to relative ratio.
So if you start at nothing, how much material mass must be concentrated before gravity generates heat capable of escaping reflective entropy. That ratio is your "one". Then the base, or how high the number can go, that's based on the highest and lowest possible concentrations in relative reality.
Does that make more sense?
It's concentration or diffusion which affects gravity which then generates heat or lack of it.
So you could use concentration in place of addition and diffusion in place of subtraction.
Then use relative ratios of material change in place of numbers and rates in place of bases.
So instead of "base 10" the base is variable and dependent on relative time to relative ratio.
So if you start at nothing, how much material mass must be concentrated before gravity generates heat capable of escaping reflective entropy. That ratio is your "one". Then the base, or how high the number can go, that's based on the highest and lowest possible concentrations in relative reality.
Does that make more sense?
@Onideus There IS such a temperature scale. It's called "degrees Kelvin". The size of a degree is the same as degrees Celsius, but it is offset 273.15 degrees so that zero on the scale is absolute zero. There are no negative degrees in the Kelvin scale.
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