Plasma can be at a very high or a very low pressure, and thus, density. Therefore, there is not a single fixed distance between the individual particles.
Plasma is a harmonic inheritance to itself. Plasma is much more dynamic in closeness and is capable of interacting with itself in ways that are really quite amzing. The closeness of plasma electrons may be the key to manipulate matter. But really...WE do not need to know how to do that. Look at what WE have done so far.
I think the key thing here is that Plasma is able to interact with most everything.
Plasma has a very wide harmonic field...aura if you will....and can adapt itself to its environment quickly. Plasma is a great medium.
And..of course the distance varies....depending on what electrons it was encountering. Plasma adapts to it surroundings.
Varible is what I might say....interesting non the less
Plasma particles are far apart just like gas!
Ice is solid and all particles in a solid are close together. Therefore, particles (molecules of water) in ice are close together.
They are the most packed state of matter.
The state of matter depends on the closeness of the particles. Gases have particles that are very far apart and solids are close together. This is determined by the strength of attraction of these particles to one another.
vibrate
the atoms move much slower than in liquids, gases, and plasmas.
Particles of a liquid are free to move in a container but remain in close contact with one another.
In liquids, the particles are still pretty close together but not necessarily touching each other. There is no pattern. We say that they arranged randomly. They are moving about in all directions, changing places all of the time.
steam is a gas so the particles are far apart
high sound particles are near, and low sound as far apart particles.
The particles of a solid are close together and the particles of a liquid are slightly farther apart.
The state of matter depends on the closeness of the particles. Gases have particles that are very far apart and solids are close together. This is determined by the strength of attraction of these particles to one another.
Compression is the part of a longitudinal wave where the particles of the medium are crowded together. Rarefaction is the part where the particles are spread apart.
far apart because heat always has more kinetic energy
Particle spacing is the closest together in solids. In liquids the spacing is close, however the particles have the freedom of movement. In gas, the particles have lots of kinetic energy, therefore they are far apart.
That would be liquid because in a solid, they are stuck and in a gas, they are far apart but in a liquid the particles move around but are still close together.
The particles in a liquid are close together. In a solid the particles are tightly packed together so you cannot compress them at all. The particles in a gas are far apart, so when they are compressed the volume of the gas reduces. The bonds in a liquid are not as close as those in a solid but they are still too close for compression.
The particles in a solid are close together.They are fixed in pace but can vibrate.The particles that make up a liquid are close together but usually farther apart than the particles in a solid are.They can slide freely past one another.The particles in gas are farther apart than particles in a liquid and solid.Gas particles move freely in any directions.
Far apart.
Gas, because the particles are the furthest apart. The particles are very close together in a solid, which is why it doesn't really change shape or stretch.