The strong
nuclear force binds quarks into protons and neutrons and sticks protons and neutrons together to make atomic nuclei.
Not exact matches
In the specific case of Germany, they are still
bound by the Treaty on the Final Settlement with Respect to Germany Some examples of the limitations set: Armed
Forces of no more than 370,000 personnel - of whom at most 345,000 were to be in the Army and Air
Force No manufacture, possession or control of NBC weapons Full application of the
Nuclear Non -...
One is the existence of a new
force, called technicolour, which would act like an extra strong version of the strong
nuclear force,
binding quarks together in the nuclei of atoms.
A decade later, physicists devised a theory for the strong
nuclear force, which
binds protons and neutrons in the atomic nucleus.
Or the strong
nuclear force, which
binds the insides of protons and neutrons.
The protons and neutrons in an atom's nucleus are
bound together by the strong
nuclear force.
Ordinarily protons, which carry the same electric charge, would repel each other, but when they are close enough, those
forces become less important than the strong
nuclear force, which
binds the antiprotons together, just as it does for ordinary protons.
Protons inside an atom's nucleus repel one another due to their like charges, but typically remain
bound together by the strong
nuclear force.
This model describes three types of
forces: electromagnetic interactions, which cause all phenomena associated with electric and magnetic fields and the spectrum of electromagnetic radiation; strong interactions, which
bind atomic nuclei; and the weak
nuclear force, which governs beta decay — a form of natural radioactivity — and hydrogen fusion, the source of the sun's energy.
They've measured a key effect of the so - called color interaction — the basis for the strong
nuclear force that
binds quarks within the proton.