Then, in tetraspace water would better to have 4 atoms - bringing up H2O2 in the form H-O-O-H - with each atom extending in different dimensions.
Now thinking about the two-atomed monecules (lets take hydrogen as an example), in tetraspace things have to rotate around a plane, but as you cannot construct a plane from two points, they would either not be able to exist at all, or their movement would be extremely unpredictable.
So, assuming that they would not be able to exist at all,
- hydrogen would not have an equivalent in tetraspace
- oxygen would have to either be O3 or O4, the former being gas only, the latter would be liquid
- nitrogen would only be able to exist as N4 which would make it a liquid
- chlorine would not have an equivalent in tetraspace.
Carbon would also be a rather interesting atom. As carbon dioxide it would only be able to exist as a gas in tetraspace, but it would need an extra carbon or oxygen atom to exist as a liquid.
If there was an extra carbon atom it would simply exist as O=C=C=O, whereas if there was an extra oxygen atom it would exist like this:
- Code: Select all
O
/|
O=C |
\|
O
Of course all these theories are based on the fact that atoms remain equivalent throughout the dimensions but the monecules don't.