You need to learn yourself some molecular geometry. An octahedral molecule forms a perfect right angle due to its bonds. Sulfur Hexafloride (SF6) is one of those molecules. So yes, nature makes perfect right angles.
I don’t mean to contradict you because I’m on your side here, but do you mean a hexahedral molecule? Cubes have six faces. An octahedron looks like two pyramids placed base-to-base
Are we talking “in a lab”, or “in nature”. Because I may not have studied molecular geometry, but I know a lot about metallurgy. And “in nature”, every compound contains impurities.
You are a special breed of pedantic. This is pedantic to the point of questioning if you have any actual intelligence or just a few smatterings of pedantic knowledge.
You need to learn yourself some molecular geometry. An octahedral molecule forms a perfect right angle due to its bonds. Sulfur Hexafloride (SF6) is one of those molecules. So yes, nature makes perfect right angles.
I don’t mean to contradict you because I’m on your side here, but do you mean a hexahedral molecule? Cubes have six faces. An octahedron looks like two pyramids placed base-to-base
It’s a bit counterintuitive to me too.
Oh, I see. The atoms are representing the vertices, of which the octahedron has 6. (Oddly enough, the hexahedron has 8 vertices…)
That makes a lot more sense. For some reason I was thinking in terms of faces, but that wouldn’t make much sense molecularly…
Are we talking “in a lab”, or “in nature”. Because I may not have studied molecular geometry, but I know a lot about metallurgy. And “in nature”, every compound contains impurities.
You are a special breed of pedantic. This is pedantic to the point of questioning if you have any actual intelligence or just a few smatterings of pedantic knowledge.
This distinction is meaningless for the purpose of this conversation
They said octahedral molecules, those are common enough that I think you find several kinds of them in mineral water.
Compounds are not molecules