Want this question answered?
On the contrary, the main force in the nucleus keeps particles together. This is called the strong nuclear force, and it keeps similarly charged protons together, overcoming the electrostatic
All matter formed together in a tiny ball smaller than an atom. All the force was too much, so the ball exploded. Tiny particles of matter gathered together to form planets.
The largest force acting with in an atom is the van der wells force. It is several orders of magnitude stronger the the weak nuclear forces. It really depends on what sub atomic particles you are talking about.
Adhesion: A condition in which bodily tissues that are normally separate grow together.
The particles force becomes stronger, and the particles come closer together. Science Department
electromagnetic force
The electromagnetic force holds unlike particles of matter together. In chemistry, that would be positively and negatively charged ions, and the protons and electrons in individual atoms.
The Strong Force.
All water particles have a force of attraction, called cohesion, between them that holds the particles together. It is so called surface tension.
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.
Gravity is the force that pulls matter together. The gravitational pull is how the moons stay in orbit around a planet.
a chalk piece can be broken easily but not an iron piece because iron has greater intermolecular force of attraction which keeps the particles together . the strength of this force of attraction varies from one kind of matter to another
Strong force keeps particles in a nucleus together.
- strong nuclear force - weak nuclear force - molecular binding energy - electrostatic force - glue - pressure - magnetic force - mortar - grout - cement
The state of matter that has the strongest bond is called a solid. Liquids are another state of matter, however, they provide the weakest bond.
What elementary particles do would depend on what type of particle they are. For example, there are antimatter particles, force particles, and matter particles.
The force due to the charges themselves is an electrostatic force.If the particles are also either moving or spinning, the force is a magnetic force.Both types of force are transferred between the charged particles by particles called virtual photons.