QNTM:Quantum 

temp can only exist by the multiple of ten.(Standard tempature:0°C)

temp changes to (temp-(temp//10))by (temp//10)/10 chance. If else, temp changes into (temp-(temp//10)+10).

Usually It just doesn't matter because we usually use many particles, and they mix. But with things like VIBR? Or when a few particles are reacting? It could be a lot of fun.

When cooled down to -50°C, Turns into a solid. This solid is conductable in a strange way.

When a solid QNTM is sparked, It works like WWLD.(Stored in tmp) has 10 frames of activity(tmp:5~15) and 5 frames of rest(tmp:1~5) before it will receive any more SPRK(tmp:0). Yet it acts very strange.

The 15 tmp will make normal SPRK to nearby conductors, will make nearby(3*3) 0 tmp QNTMs' tmp into 15, and will turn into 14 tmp by (5*15)% chance.

The 14 tmp will make normal SPRK to nearby conductors, will make nearby (3*3) 0 tmp QNTMs' tmp into 14, and will turn into 13 tmp by (5*14)% chance.

The 13 tmp will make normal SPRK to nearby conductors, will make nearby(5*5) 0 tmp QNTMs' tmp into 13, and will turn into 12 tmp by (5*13)% chance.

The 12 tmp will make normal SPRK to nearby conductors, will make nearby (5*5) 0 tmp QNTMs' tmp into 12, and will turn into 11 tmp by (5*12)% chance.

The 11 tmp will make normal SPRK to nearby conductors, will make nearby (7*7) 0 tmp QNTMs' tmp into 11, and will turn into 10 tmp by (5*11)% chance.

And it goes on until the tmp is under 5.

The 6 tmp will make normal SPRK to nearby conductors, will make nearby(11*11) 0 tmp QNTMs' tmp into 6, and will turn into 5 tmp by (5*6)% chance.

If the tmp is under 5, they will just decrease their tmp 1 per frame by 50% chance until it become 0.

When heated over 2000°C, Turns into a gas(DUAL, Duality matter). This gas has a chance to "split".

Every DUAL gets their own ID stored in tmp2 and they measures how much time elapsed since last contact with other particles except DUAL.  When a split happens(0.5% per particle, when tmp is over 300), the particle summons an other DUAL which has the same tmp2 in a square area(vx*vy). Then It turns its tmp to 0 again.

When a DUAL touches a particle, It counts how much DUAL particles' tmp2 is equal to its tmp2(Including itself). Let's call that number N.

The particle disappears by (N-1/N) chance. If else, all other DUAL particles which has the same tmp2 disappears, and they add its temp, vx and vy to the survived DUAL particle.

What had I done

@NaroMatthew (View Post)

 Yes, this looks a lot messy. Let me write only the possible usages.

QNTM can act like a random temp generator, as it changes tempature based partly on random.

Solid QNTM can act like a random delay generator when combining it with electronics.

DUAL can "tunnel through" walls when accelated. Maybe can make a strange behaving bomb with this.