HallsofIvy said:That's my understanding- purely electro-magnetic. The distance between atoms is too great for nuclear forces (strong and weak) to play a roll and the masses are too small for gravity to be significant.
alxm said:Electromagnetism and the Pauli principle, whether you want to consider the latter a force or not was just debated in another thread. But in any case, exchange contributions are necessary for chemistry.
The functions of the brain are probably reducible to chemistry but there's probably no reason to go for a full chemical description. The behavior and dynamics of biochemical systems is routinely studied with quasiclassical MD simulations.
The fundamental forces involved in a chemical reaction are electromagnetic force, gravitational force, strong nuclear force, and weak nuclear force. These forces determine how atoms interact with each other and the energy involved in a chemical reaction.
The electromagnetic force is responsible for the attraction and repulsion of charged particles, such as electrons and protons. In a chemical reaction, this force is involved in the formation and breaking of chemical bonds between atoms.
Gravitational force is the weakest of the fundamental forces and is not typically a major factor in chemical reactions. However, it can play a role in the movement of molecules and the overall energy of a reaction.
The strong nuclear force is responsible for holding the nucleus of an atom together. In a chemical reaction, this force is involved in the breaking and formation of bonds between atoms, which determines the stability of the resulting molecules.
The weak nuclear force is responsible for certain types of nuclear decay, such as beta decay. In a chemical reaction, this force is not usually a major factor, but it can play a role in the stability of certain atoms and their ability to participate in reactions.