Well, for a solid, you would draw the particles close together and touching so that none of them could be moved around. For a gas you would draw them very spaced apart with none touching, and for a liquid you would draw them some where in the middle with some touching and some spaced out.
The behavior of particles (such as how closely they are packed and how they interact) determines the state of matter. In solids, particles are tightly packed and vibrate in place. In liquids, particles are loosely packed and can slide past each other. In gases, particles are far apart and move freely.
In a solid state, particles exhibit the least amount of motion. The particles in a solid are tightly packed together and vibrate in fixed positions.
That might be the state which matter has in a neutron star. - Of the states of matter closer to everyday life, that would be the solid state.
The solid state.
The particles on every state of matter are always in motion, and hence will have a specific amount of kinetic energy both related to their temperature and current state. Solids move less than liquids, liquids less than gasses, etc. At absolute zero, it's theorized that independant molecular movement within any state of matter would cease, and that matter would therefore have no kinetic energy other than being physically moved somewhere by an outside force.
transition from a disordered arrangement in the liquid state to an ordered arrangement in the solid state, or to a more chaotic arrangement in the gas state. The particles gain or lose energy during this change, leading to alterations in their speed and spacing.
The solid state of matter is characterized by rigidity as its primary feature. In solids, the particles are arranged in a fixed, regular pattern which gives them a definite shape and volume. This arrangement of particles allows solids to maintain their shape and resist deformation under applied stress.
The solid state of matter possesses the maximum rigidity. In solids, particles are packed closely together in fixed positions, resulting in strong intermolecular forces that hold the particles in place. This fixed arrangement gives solids their definite shape and volume, thus providing rigidity.
The state of matter where the particles are locked into a pattern is solid. This is the most sturdy state of matter.
Gas has the fastest moving particles among the states of matter. In a gas, the particles have more energy and move more quickly compared to particles in solids or liquids.
The behavior of particles (such as how closely they are packed and how they interact) determines the state of matter. In solids, particles are tightly packed and vibrate in place. In liquids, particles are loosely packed and can slide past each other. In gases, particles are far apart and move freely.
move faster and break free from other particles, entering the gas state.
I'm guessing it would still be a bunch of carbon atoms covalently bonded with four others (repeatedly) but it would be all random; not a tetrahedral arrangement as it exists in while its in solid state.
In a gas state, particles move freely and rapidly in random directions due to their high kinetic energy. This results in a lack of fixed shape or volume, as the particles are constantly colliding and spreading out to fill the container they are in.
In a solid state, particles exhibit the least amount of motion. The particles in a solid are tightly packed together and vibrate in fixed positions.
If you are asking when particles are "able to move freely" that would be a liquid. If you simply ask about "moving" then that would be a solid, since in a solid the particles are still movings.
that would be plasma. Plasma is the unsung 4th state element.