Allotropism
The 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.
They are called isotopes. They differ in molecular mass due to the different number of neutrons.
Atoms with the same atomic number are all atoms of the same element. However, if the atoms have different molecular weights, they are isotopes of the same element.
Isomers are pairs of molecules that share the same chemical formula but have different structural arrangements. For example, glucose and fructose both have the chemical formula C6H12O6, but they have different structural arrangements.
Histones
The union of substances into a new molecular structure is called a chemical reaction. In a chemical reaction, chemical bonds are broken and new bonds are formed, resulting in a different molecular arrangement from the original substances.
An elemental mineral.
Sand has a giant molecular structure. It is mainly made of a mineral called quartz, which is silicon oxide (SiO2).
An element that has forms with different numbers of neurons is referred to as an "allotrope." Allotropes are different forms of the same element that have distinct physical or chemical properties due to variations in their atomic structure, such as differences in the number of neurons. Examples include carbon allotropes like graphite, diamond, and fullerene.
No, the molecular formulas for all amino acids are not the same. The unique molecular formula for each amino acid is referred to as its chemical structure.
disserent structural forms of the sme element are called
A chemical compound is composed of two or more different chemical elements bonded together, most commonly through ionic or covalent bonds. In a covalent bond, the elements "share" electrons, while in ionic bonds, one element "takes" electrons from the other element. The bonds are usually performed to neutralize electronic charges, and the resulting attracting forces holds the elements together.
These atoms are called isotopes.