they are heldtogether by special type of bonds known as metallic bonds, these bonds are hybrid of ionic and covalent bonds.
Molecule is a group of atoms. They are held by chemical bonds.
the atoms are held together because they a chemically combined.
Yes
The atoms in a water molecule are held together by covalent bonds; this means that the bonded atoms have formed a hydrogen bond between them, leading to a water dimer.
Atoms are held together by a few forces, depending on how small you look. Quarks (the sub-atomic particles that make up protons and neutrons) are held together by gluons. Protons and neutrons are held together by the strong nuclear force. The nucleus and electrons are held together by the electromagnetic force.
Metals are giant structures of atoms held together by metallic bonds. "Giant" implies that large but variable numbers of atoms are involved - depending on the size of the bit of metal. Most metals are close packed - that is, they fit as many atoms as possible into the available volume. hope this helps :)
covalent bonds.
Molecule is a group of atoms. They are held by chemical bonds.
the atoms are held together because they a chemically combined.
chemical bonds
The atoms in compounds are held together by chemical bonds
Yes
Anions and cations are held together by ionic bonds. Metal atoms are held together by metallic bonds. Nonmetals are held together by covalent bonds.
The atoms in a water molecule are held together by covalent bonds; this means that the bonded atoms have formed a hydrogen bond between them, leading to a water dimer.
This is a molecule.
Atoms are held together by a few forces, depending on how small you look. Quarks (the sub-atomic particles that make up protons and neutrons) are held together by gluons. Protons and neutrons are held together by the strong nuclear force. The nucleus and electrons are held together by the electromagnetic force.
Chemical bonds are what hold together the atoms of a compound. The chemical bonds are formed as a result of the interaction of the electrons from each atom.