Want this question answered?
sorry I do not know you can use google
The strong nuclear force affects matter by "building" it. Matter as we generally know it is composed of atoms. Atoms are built from protons, neutrons and electrons, and protons and neutrons are built from quarks. It is the strong nuclear force that binds the quarks and gluons together to make up the protons and neutrons. This is a straight forward way to explain how the strong nuclear force (strong interaction) affects matter.
Without the strong force atoms would fly apart and nothing would exist as we know it.
As far as I know, atoms can't be seen with anything, but scientist are sure that they exists. That is done by lots of experiment, which back up their theory that atoms exists.
There are four essential interactions (as far as we know) that take place in nature:electromagnetism, gravitation, the weak interactions, and the strong interactions.Of these, it is the strong interactions, also called strong force, which compel protons and neutrons to stick together and form the atomic nucleus.
Helium atoms are lighter than any atoms/molecules except hydrogen. I don't know what you mean by "the buoyant force".
electromagnetic force strong nuclear force weak nuclear force gravitational force
If you artificially created an environment in which antigravity was as strong as gravity or neither force existed at all, then yes. However, as no such place (as far as we know) exists, no. Everything weighs something (except for fundamental force carrying bosons (excluding, of course, the Higg's Boson)).
They are chemical bonds varying in strength. The strong nuclear force holds atoms together. Electro-static forces hold molecules together. (The positive and negative forces of the electrons and protons create an attraction that keep the atom together.)
I am pretty sure that the force is gravity, but it may be some type of electro magnetic force for all I know.
neutrinos^Who ever answered that didn't know what they were talking aboutIt's GLUON
Everywhere around you. The crust of the earth and all things on it are pretty much atoms of one kind or another. Matter as we know it is generally made up of atoms. Atoms are the building blocks of molecules. We are atoms. Certainly there aren't atoms as we know them in stars because they are too hot. Matter there there exists as plasma. And in space where gas and charged particles swirl and eddy, atoms are not the norm. But 'round these parts, we can't help but find them.