An element is held together by strong atomic forces.
In solid silver and copper, atoms are held together by metallic bonds. Metallic bonds are formed when atoms of a metal element share their outer electrons with neighboring atoms, creating a sea of delocalized electrons that hold the atoms together in a lattice structure.
When atoms of one element chemically join with another element, they form molecules or compounds. In these compounds, the atoms are held together by chemical bonds resulting from the sharing or transfer of electrons.
Covalent bonds can hold to gether many atoms and are not limited to a certain element.
Ionic bonds form when one element transfers electrons to another element. This occurs when an element with a high electron affinity (EA) transfers electrons to an element with a low ionization energy (IE). The transfer of electrons creates ions that are held together by electrostatic forces, forming an ionic bond.
Each column going down the periodic table is an atomic group.
Nitrogen
nitrogen
Van der Vaals's forces of attraction are responsible for holding together atoms of an element.
Yes, that is the form it takes as an element.
An element and compound. Element- A group of atoms with identical proton numbers, Compound- 2 or more DIFFERENT elements chemically held together.
They are held together by ligaments.
they are not held together.
In solid silver and copper, atoms are held together by metallic bonds. Metallic bonds are formed when atoms of a metal element share their outer electrons with neighboring atoms, creating a sea of delocalized electrons that hold the atoms together in a lattice structure.
When atoms of one element chemically join with another element, they form molecules or compounds. In these compounds, the atoms are held together by chemical bonds resulting from the sharing or transfer of electrons.
The atom is the smallest unit of an element that retains the chemical properties of that element. A molecule is defined as a unit of at least two atoms held together by very strong chemical bonds.
No. Titanium is an element, not a compound. Like other metals, it is held together by metallic bonds, which are different from covalent and ionic bonds.
Bones are held together by ligaments.