The question is ambiguous.
The primary force between distinct atoms that holds them together is the electromagnetic force (there's also gravity, but that's much much weaker). The communicating particle (aka "gauge particle") for the electromagnetic force is the photon.
Several forces play a part in holding an individual atom together. Electrons are bound to the nucleus by the electromagnetic force. The individual nucleons (protons and neutrons) are composed of quarks held together by the strong nuclear (or "color") force, and the nucleons are bound together in the nucleus by the residual strong nuclear force. The gauge particle for the strong force is known as the gluon.
The electromagnetic field causes atoms to bind together to create molecules, and materials humans use everyday. So, to answer your question: The electromagnetic force, the positive/negative attraction between electrons and protons, causes atoms to bind together.
It depends on the atom. A charged atom's attraction is called electostatic forces.
The force that holds two atoms together is called a chemical bond.
The intermolecular attraction.
A Chemical Bond
Wiz Khalifa
the force of attraction that holds atoms together is a chemical bond
Covalent bond
A Chemical Bond
a force that holds atoms together
The force of attraction that holds two atoms together is called a(n) chemical bond
The force responsible for combine atoms together in a compound is chemical bonding.
Wiz Khalifa
elements
the force of attraction that holds atoms together is a chemical bond
chemical bond holds together the atoms in a substance
Covalent bond
Chemical bond is the force that hold two atoms together
Chemical Bonds holds atoms together, basically there is electrostatic force of attraction among different particles of atoms
A Chemical Bond
The "strong nuclear force".
a force that holds atoms together