Want this question answered?
It is the electromagnetic force that holds electrons and protons together in atoms, and which hold atoms together to make molecules.
Protons and neutrons are held together by the strong nuclear force, they have an attraction towards each other that overpowers the electromagnetic force that repels them. This strong interaction, as it is also known, only works over short distances, microscopic to be exact.
The weak and strong nuclear forces are the main reasons
That is the strong nuclear force.
nuclei because a chemical bond is a mutual attraction between the NUCLEI and valence ELECTRONS of different atoms that binds the atoms together
It binds the nucleus together.
It is the electromagnetic force that holds electrons and protons together in atoms, and which hold atoms together to make molecules.
Protons and neutrons are held together by the strong nuclear force, they have an attraction towards each other that overpowers the electromagnetic force that repels them. This strong interaction, as it is also known, only works over short distances, microscopic to be exact.
The weak and strong nuclear forces are the main reasons
the neutron keeps the nucleus together. it also binds protons together in the nucleous
The force binding the nucleus of an atom is the strongest fundamental force in nature. There are four fundamental forces in nature. These are the electromagnetic force gravity, the strong nuclear force, and the weak nuclear force. Of these, the strong nuclear force, which binds together the nucleons (neutrons and protons) of atoms, is by far the strongest. It is over 100 times as strong as the electromagnetic force, which, in turn, is far stronger than gravity or the weak nuclear force.
That is the strong nuclear force.
Protons and neutrons together in the nucleus
That attraction is described mathematically by Coulomb's Law.
collagen binds skin cells together.
Glucokinase Regulatory Protein is found in the nucleus which binds glucokinase to inactive it
nuclei because a chemical bond is a mutual attraction between the NUCLEI and valence ELECTRONS of different atoms that binds the atoms together