Gravity is the force that pulls matter together. The gravitational pull is how the moons stay in orbit around a planet.
Capillary forces
strong interaction(strong force)
gravity
Attraction!
Electromagnetic.
nuclear force
A Strong Nuclear Force
Under the influence of external pressure the particles are forced together. Under the particles' own gravitational force the particles come together. Technically speaking there must be an external force to bring the particles of matter together. Another point to be noted is that when the particles moves so close to together that it crosses its critical mass a black hole is developed. But not always.
Those which have a "color charge": quarks and gluons. The strong nuclear force is so strong that we can't actually directly observe isolated particles with a color charge. It takes so much energy to pull them apart that new particles are created, so all we can ever actually see are color-neutral particles like mesons (a quark-antiquark pair) and baryons (three quarks, or three antiquarks) with color charges that "cancel out". The residual strong force also serves to hold nucleons (neutrons and protons, both of which are baryons) together in the atomic nucleus.
The Strong Force.
Electromagnetic.
Strong force keeps particles in a nucleus together.
electromagnetic force
The force holding the molecules are stronger (colder=closer together), therefore the bubbles have more force holding them together.
The dispersion force is responsible for holding nitrogen crystals together
Strong force
No it is the force holding the atomic nuclei together.
nuclear force
Newton discovered how the world was held together when the memorable event of the apple falling on his head helped him discover the force of gravity. He then concluded that gravity pulls together all the particles of Earth, therefore holding it together.
Protons and neutrons are not elementary particles. They're made of particles called quarks (which we're reasonably sure areelementary particles). These quarks are held together in hadrons such as protons and neutrons by something called the color force, also known as the strong nuclear force.The residual color force, which you can sort of think of as "left over" from holding the individual protons and neutrons together, holds the collection of protons and neutrons together in the nucleus.
heat suckas