Ions - Electrostatic force of attraction between oppositely charged ions, known as the ionic bond.
Atoms - Instantaneous dipole-induced dipole(id-id) interactions for Atoms in ground state.
The quarks that make up protons are held together by strong nuclear force mediated by gluons. The protons and nuetrons themselves are held together by a short range force known as residual strong force. The electrons are bound to the nucleus by an electrostatic force that keeps them within the electrostatic potential well.
Because the nucleus of an atom or ion is made up of positively-charged protons, a force is required to keep the protons from repelling each other. This is the strong force, so named because it is the strongest of the four fundamental interactions. The strong force also holds quarks and gluons together to make up protons and neutrons.
If you meant, "What forces hold the atoms or ions within a compound together?" then this is the electromagnetic force, another one of the four fundamental interactions. The electromagnetic force is force that the electromagnetic field puts on charged particles, making positive particles attract negative particles. The electromagnetic force would cause the protons in a nucleus to repel each other, but the strong force holding them together is about 100 times stronger than the electromagnetic force.
chemical bonds; follow me instagram kundofire
the electrostatic force of attraction holds the oppositely charged ions together.
electromagnetic force
chemical bonds
Atomic Bond.
chemical bonds
i think
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.
Chemical Bonds
between molecules the forces are called intermolecular forces, and between the atoms in a molecule they are called inramolecular forces
Convalent Bonds (Apex)
Covalent bonds
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.
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.
intermolecular forces examples are dispersion forces
They hold together with the help of different forces than gravity. Therefore they are not influenced by gravity.
The forces that hold the atoms together
Covalent bonds
Chemical Bonds
No - not very likely - electrons are all -ve charged. Ultimately, no-one knows what hold atoms together, although a lot is known, they just get called nuclear forces.
Covalent bonds
Intermolecular force holds large numbers of different molecules together.
In Nature, molecules are two or more different element atoms that are joined together using chemical bonds (the forces that hold atoms together). A group of atoms bonded together, representing the smallest fundamental unit of a chemical compound that can take part in a chemical reaction.
between molecules the forces are called intermolecular forces, and between the atoms in a molecule they are called inramolecular forces