Allotropes
have the same atomic number, number of protons, number of
electrons, etc. but the chemical and physical properties may differ strongly.
Each of two or more different physical forms in which an element can exist.
Sulphur and helium have entirely different properties. Sulphur has properties similar to group 16 elements. Helium has properties similar to group 18 elements.
allotrope
allotropy is a phenomenon where an element exists in different forms having different physical properties and same chemical properties is known as allotropy.
O3 is the allotrope of oxygen that is isoelectronic.
allotrope
From Wikipedia: "Allotropy or allotropism is a behavior exhibited by some chemical elements: these elements can exist in two or more different forms, known as allotropes of that element. In each allotrope, the element's atoms are bonded together in a different manner." Conversion, therefore (logically) would mean that one would be able to reduce the carbon allotrope to atoms and then re-assemble them into a different allotrope. For example, in order to form a diamond allotrope from a group of carbon atoms requires enormous amounts of pressure and temperature.
The element whose allotrope is ozone is oxygen. It is one of the main part of ecosystem.
different shape of elements from the molecules and compounds
allotrope allotrope =)
allotrope of carbon i.e. graphite
They are different elements but they are similar in that they are both metals.
AllotropismThe form of an element having a different molecular structure is a Allotrope. Examples of an Allotrope are diamonds and graphite. An Allotrope is a carbon.
Each of two or more different physical forms in which an element can exist.
Because they have different properties.
Generally the properties are different.
In that case, scientists talk about different "allotropes". For example, graphite and diamond are different varieties of carbon - the same atoms, in a different arrangement.