All chemical bonds, including those found in network solids, derive from the electromagnetic force. Positively charged protons attract negatively charged electrons. Although atoms start off with an equal number of protons and electrons, and are therefore electrically neutral, the electrons rearrange themselves in ways that create attractions between atoms. Covalent bonds
No, they do not hold two compounds together. The forces that hold compounds together are intermolecular forces. Ionic and covalent bonds are intramolecular forces, and they hold the atoms of the molecule or formula unit together.
Forces hold matter together.
Ionic bonds
Hold Polar molecules together
between molecules the forces are called intermolecular forces, and between the atoms in a molecule they are called inramolecular forces
No, they do not hold two compounds together. The forces that hold compounds together are intermolecular forces. Ionic and covalent bonds are intramolecular forces, and they hold the atoms of the molecule or formula unit together.
forces hold matter together
London dispersion forces (also known as van der Waals forces) hold molecular solids together. or Intermolecular forces
forces hold matter together
forces hold matter together
Hold polar molecules together
intermolecular forces D:
Forces hold matter together.
The forces that hold groups of atoms together are the strong nuclear forces. It has a short range, which means that particles must be extremely close before its effects are felt.
intermolecular forces examples are dispersion forces
Electromagnetic and electro-static forces holds particles together in its nuclius.
Strong nuclear forces hold the nucleus together: the nucleus is actually enveloped in what can be described as a nuclear envelope.