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-- Size of the charges on two objects. -- Sign of the charges on the two objects. -- Distance between the two charged objects.
That depends. The smallest particle in the classic physics is te atom. In the modern physics is the quark (quark is the composition of an eletron). WHAT IS THE SMALLEST PARTICLE The quark
It depends upon the mass of the particles also. Assuming equal mass, then the slower moving particle gains some energy, and the faster moving particle loses energy. However, if the slower moving particle had greater mass, it could transfer energy to the faster moving particle.
Particles are neither strong nor weak. The forces between particles may be strong or weak. In this case, the strength (or magnitude) of the force depends on the specific situation. In the case of electrical forces, the force between particles gets stronger when the particles are close together. On the other hand, the "strong force" between bound quarks is independent of the distance.
depends on the particle, its size, it molecular bonding and how strong it van der walls forces are
Particle size depends on the type of particle.
Depends on what the particles are. The number would be 1/w where w is the average weight of one such particle.
-- Size of the charges on two objects. -- Sign of the charges on the two objects. -- Distance between the two charged objects.
it depends what gas particle's you have but it does work if you have the right equipment.
That depends. The smallest particle in the classic physics is te atom. In the modern physics is the quark (quark is the composition of an eletron). WHAT IS THE SMALLEST PARTICLE The quark
It depends upon the mass of the particles also. Assuming equal mass, then the slower moving particle gains some energy, and the faster moving particle loses energy. However, if the slower moving particle had greater mass, it could transfer energy to the faster moving particle.
Usually yes, but the distance between the particles depends on pressure. A gas at high pressure can actually have particles fairly close together.
This completely depends on the matter you are referring to. If you are talking about sub atomic particles that no, they are minute. But you can also have a particle of dust which, yes, is big compared to some other particles.
Particles are neither strong nor weak. The forces between particles may be strong or weak. In this case, the strength (or magnitude) of the force depends on the specific situation. In the case of electrical forces, the force between particles gets stronger when the particles are close together. On the other hand, the "strong force" between bound quarks is independent of the distance.
It depends on what you want to measure. A unit that is suitable for the distance between subatomic particles will be of little use in measuring intergalactic distances (and conversely).
The answer depends on what you mean by a "particle". Everything is made of atoms and each atom is made from a number of different subatomic particles. Therefore, everything is made up different subatomic particles.
Alpha particles can pass through very few materials. The spacing between nuclei of the material would have to be enormous for an alpha particle to pass through. The passage of alpha particles simply depends on the density of the material.