Generating the highest pressure possible
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Yeah yeah, I know. I saw your save.
Probably some sort of overflow in the code. Negative pressure should NOT be able to lower the temperature of URAN.
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Cool s weird
Nan is not infinite cause according to my whizzo math skills..
Nan can apparently be equalized...
But infinity times/divided by/plus/minus/square root / square anything is still infinity so if nan can be changed...
And what about the nan * 0
What would that be?
0*x=0 x=anthing
∞*x=∞ x=anything.
so
∞*0=?
Also nan oil is unburnable!
1605640View Save 1605640Edited 2 times by goodiesohhi. Last: 16th Aug 2014 -
∞*0 is indeterminate, because there are two equally correct solutions that cannot be easily determined.
NaN - x = NaN for any x, since as I explained, any attempt for a computer to logically calculate using NaN will always result in NaN.
Even if x = NaN, NaN - x does not and cannot equal 0 because in all languages that follow the IEEE 754 standard, NaN does NOT equal NaN. In reality this is indeterminate, but it happens to be that the answer must be NaN because of the IEEE 754 preference (considering that TPT is using it due to C++). Also, this is the equivalent of NaN*0, so yeah.
It would be strange to think that NaN is negative even for your OIL case, since if NaN was indeed really just a huge negative number, then the OIL would have turned to GAS already. Please compare your results with NaN pressure to negative pressure in the same experiment, it hurts my brain because I've answered a lot of experimental problems today.
Edited 2 times by PTuniverse. Last: 16th Aug 2014 -
Back to the point, NaN pressure doesn't count as an actual pressure. You can cause TPT to show pressure about 256 by layering lots of stuff.
1605702View Save 1605702Gets above 256 pressure.
Edited once by iamdumb. Last: 16th Aug 2014 -
Nan oil has nothing to do with what I was saying.. Just a discovery of mine... :)
Well someone might of discovered it first but..
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