Carbon, it is found in every human cell and as diamonds and graphite
Three forms or arrangements, in chemistry known as allotropes, of carbon are: diamond, graphite (pencil "lead"), and the fullerene or "bucky-ball," a soccer ball shaped arrangement of 60 carbon atoms.
The charge on individual ions when they form compounds is decreased or increased depending on if the ion needed or had too many electrons. I think....think that is the answer, so, get back to your textbook :)
Carbon is an element. Sucrose, a sugar, is a compound ( a combination of elements ). Sucrose is composed of carbon, hydrogen and oxygen. Pure carbon is found in two forms, graphite (pencil lead) and diamond. Carbon and sucrose are very different in properties except for the fact that both can be burned in the presence of oxygen to yield CO2 (and water in the case of sucrose).
Magnesium is an s-block element and it forms only ionic bonds with other elements.
There are three forms of pure carbon: graphite, coal, and diamond. All three can be made perfectly pure, although coal is usually the least pure when found in nature. All have some impurities when found in nature however.
No; think of carbon. This is a non-metallic element; it exists in the forms of diamond and graphite - both "shiny" substances.
allotropy is a phenomenon where an element exists in different forms having different physical properties and same chemical properties is known as allotropy.
The basic element is carbon.
Carbon is the element that forms both coal and diamonds. The difference in their structure and properties is due to the conditions under which they are formed - coal forms under low pressure and temperature, while diamonds form under high pressure and temperature.
The element carbon can exist in a variety of forms, which include both graphite and diamond, as well as coal, and buckminsterfullerene.
Diamonds are formed from carbon.
Carbon, as it forms tetrahedral structure.
The three forms of the element carbon are diamond, graphite, and fullerenes (such as buckyballs and nanotubes). Each form has distinct properties and structures due to different arrangements of carbon atoms.
CARBON
Isotopes. These are atoms of the same element with different numbers of neutrons, resulting in different atomic masses.
The different forms of the same element are called isotopes. Isotopes of the same element have the same number of protons but different numbers of neutrons in their nuclei, resulting in different atomic masses. This can lead to variations in stability and radioactive properties among isotopes.
The best known diamond substitute is Zirconium dioxide.