It is not a foliated rock. It is an allotrope of carbon. Carbon exhibits three known allotropes, they are graphite, diamond and Buckminster fullerene(buckyballs). Allotropes are were the element exhibits different physical forms of itself.
YES!!! Sulphur exhibits several allotropes. The Yellow allotrope is 'S8'. It is sometimes named as ' flowers of sulphur'. There are at least two other allotropes, they are red sulphur, and white sulphur, but these are less common. NB An ALLOTROPE is a different physical form of the same element.
Tin has two forms (allotropes) one is "white tin" (beta-tin) which is a metal although some chemists/metrial scientists would call it a "poor metal"- and "grey tin" (alpha-tin), a low temperature form, which has a similar structure to diamond and more covalent in character. So one allotrope is a metal and the other isn't. Probably the answer a school teacher expects is tin is metal.
Tin has two oxidation states (II and IV), and exhibits approximately equal stability in both its II and IV oxidation state. The chemical formula Tin (II) Iodide is SnI2. The chemical formula for Tin (IV) Iodide is SnI4.
Ozone is not an allotrope. It is a compound of oxygen.
Diamond is the allotrope -- of carbon.
Diamond is an allotrope of carbon.
O3 is the allotrope of oxygen that is isoelectronic.
There is only ONE element that makes diamonds. It is Carbon. Carbon has THREE(3) allotropes viz., Diamond, Graphite, and Buckminster Fullerene. An ALLOTROPE is were an element exhibits different physical characteristics.
No. Ammonia is a compound. An allotrope is a substance in its elemental form.
Ozone is an allotrope of oxygen. It is represented as O3.
Oxygen has ozone as allotrope. It is the triatomic form of oxygen.