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The following are the four universal forces: gravity, weak force, electromagnetic force, strong force. Out of these four, the strong force plays the largest part in holding atoms together.
Which of the four fundamental forces of nature is responsible for binding quarks to one another?
The forces that hold groups of atoms together are the strong nuclear forces. It has a short range, which means that particles must be extremely close before its effects are felt.
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.
The weak and strong nuclear forces are the main reasons
the strong force
The following are the four universal forces: gravity, weak force, electromagnetic force, strong force. Out of these four, the strong force plays the largest part in holding atoms together.
The intermolecular forces holding gas molecules together are not very strong and thus the molecules are free to move around freely. This allows diffusion. The intermolecular forces holding molecules of a solid together are rather strong, and the molecules thus cannot move very freely. This prevents diffusion.
Gravity is the force that pulls matter together. The gravitational pull is how the moons stay in orbit around a planet.
Which of the four fundamental forces of nature is responsible for binding quarks to one another?
Liquid. The liquid state lies between the gaseous and the solid state. The cohesive (attractive) forces between the liquid particles are strong enough to keep them together but not to keep them in a fixed position.
there are strong forces holding the solids together so they cannot leave their positions.
Strong force
The nucleus is held together by a combination of both the strong and weak forces.The electrons are held in their orbitals about the nucleus by the electromagnetic force.That leaves only gravity, which does not participate in holding atoms together.
An element is held together by strong atomic forces.
Strong nuclear forces hold the nucleus together: the nucleus is actually enveloped in what can be described as a nuclear envelope.
The Strong Force.