Ionic bonds in compounds such as NaCl and covalent bonds in say diamond (C) and quartz (SiO2)
Ions of opposite charges are involved in ionic bonding where the metal atoms form metallic bonds.
ionic bonds have strong bonds and molecular bonds have very strong bonds.
Electrons in SIGMA bonds remain localized between two atoms, Electrons in PI bonds can become delocalized between more than two atoms?
They can be bonds as in rope tying someone up. They can be the attraction holding elements together in a compound - chemical bonds They can be monetary instruments - Stock Market bonds.
There are so many such crystals one example is Diamond.
No
The forces between ions in crystals are ionic bonds. These bonds are stronger and are a much more extreme version of electron sharing between metal atoms and nonmetal atoms. London forces and dipole-dipole forces are attractive forces that occur between covalently bonded nonmetal atoms.
In the chemical bonds of its monomers.
No, not all crystals are formed by ions. Some crystals are formed by covalent bonds, where atoms share electrons, rather than by the attraction of ions. Additionally, some crystals can be formed by metallic bonds, where electrons are delocalized among a lattice of metal atoms.
Ions of opposite charges are involved in ionic bonding where the metal atoms form metallic bonds.
ionic bonds have strong bonds and molecular bonds have very strong bonds.
Electrons in SIGMA bonds remain localized between two atoms, Electrons in PI bonds can become delocalized between more than two atoms?
Yes you can break the bonds between atoms and after they are broken they can also reform themselfs.
They can be bonds as in rope tying someone up. They can be the attraction holding elements together in a compound - chemical bonds They can be monetary instruments - Stock Market bonds.
There are so many such crystals one example is Diamond.
The forces between ions in crystals are ionic bonds. These bonds are stronger and are a much more extreme version of electron sharing between metal atoms and nonmetal atoms. London forces and dipole-dipole forces are attractive forces that occur between covalently bonded nonmetal atoms.
Arrangement of the atoms and the bonds between the atoms.