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iodine
diamond n iodine have high melting points as they are both ionic compounds
Dissolve the mixture in water. Filter the mixture obtained. You will have diamond as your residue and aqueous iodine as your filtrate.
Bond length of iodine: 266,6 pm.
Yes, Iodine shows a high level of reactivity even when in a lattice structure
iodine
diamond n iodine have high melting points as they are both ionic compounds
Dissolve the mixture in water. Filter the mixture obtained. You will have diamond as your residue and aqueous iodine as your filtrate.
Bond length of iodine: 266,6 pm.
Two basic differences would be obviously innate size and structure.SizeDiamonds -- as we know them as humans -- can be small, as small as 1/100th of a carat (one point) when processed. There may be smaller raw diamond stones, but they are generally commercially viable as industrial diamond dust.Nanotubes -- are 1/50,000th the width of a human hair, considerably smaller than a (commercial) diamond or perhaps even diamond dust grains.StructureDiamonds are cubic in their structure and in raw form appear triangular or as two pyramids attached at the base.Nanotubes naturally align themselves as ropes.
Graphite has a layered structure: the bonds between carbon atoms are covalent and the bonds between layers are weak van der Waals bonds.Diamonds have a face centered cubic diamond lattice which is very rigid.Differences in structure explain differences of physical properties.
Yes, Iodine shows a high level of reactivity even when in a lattice structure
The iodine has a diatomic molecule - I2.
It's the same as uranium
The element that exhibits a crystalline structure at STP is iodine. It is a nonmetallic element that forms black crystals and a violet vapor.
Graphite is less dense than diamond, due to the differences in crystal structure.
No, these are two different things. They will have slightly different chemical equations to show the differences that arise.