New Element Suggestions *READ BEFORE POSTING SUGGESTIONS*
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singularity
certain metals under certain properties and a massive energy, many metals have a better chance of boiling into gases before they ignite.
Magnesium is an element that burns at a very low temperature, with the massive amount of energy exerted through the quanta of energy released when dropping PEL's releases AN S-LOAD OF LIGHT -
I want something like plutonium but for photons, under enough heat or pressure it explodes into a bunch of photons, basically like a supernova (plasma would also be nice with it too). Neutrons are getting a bit boring for nuclear explosions, plasma and photons would make nuclear explosions much more advanced and fun, even though they aren't nuclear they are closely related.
I really like the photon element, it should be worked on more, also make the plant be able to grow when a photon hits it, instead of burning it.
Also, some particles without mass, whatever they are, might also be a welcome addition :D they only move around from pressure, and unless another wave of pressure hits it it will keep moving in the same direction, but this sounds kind of crappy...oh well x) -
Ok, I´d like to (again) propose, not a new element, but a new property to some of the liquids already existing in TPT.
I´ll just go ahead and quote myself from an earier thread.floridarolf:It is possible to evaporate oil or water at "room temp" (22°C) and very low pressure, which is nice in first place, but if you, lets say evaporate half of a given amount of either water or oil, the remainder of the liquid should be colder than 22°, but its exactly the same.
Basicly what I am asking for is that when you turn a liquid into a gas, it should "cost some energy", meaning, if a pixel of oil turns into a pixel of gas, it should cool adjecent pixels down by ~0.01° maybe more, maybe less i havent given much thought to that.
Now, dont misunderstand me, by evaporation I don´t mean boiling a liquid by raising its temperature, rather,
boiling a liquid by lowering its surrounding pressure.
In my opinion, this would be a great gain to TPT, in that it would allow for much more complex cooling
solutions, other than Cloner+Ln2, Im talking real Compressor/Evaporator systems here ppl
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So long, floridarolf. -
Adding to the metal with a high melting point... would Tungsten be viable for that kind of usage?
Reading about lasers got me thinking...
Mirror Elements:
Mirror (MIRR): Reflects all elements, could make it melt into BGLA at a high temperature.
Semi-transparent (STMR): Lets 50% of an element through, bounces the other 50% back, melts into BGLA maybe.
Heat-Reactive Mirror (HRMR): Doesn't reflect at cold temperatures, as it warms up it reflects more particles back until 100% reflection. Only melts at extremely high temperatures.
Cold-Reactive Mirror (CRMR): Opposite effect of above, 100% reflection to start, as it warms up it reflects less. Still melts at extremely high temperature.
Charged Mirror (PCMR): Reflects when charged by PSCN, doesn't reflect when (dis?)charged by NSCN
