Particles in a liquid can slide past each other but are still packed together.
solid
gas
The particles have room to move around, but cannot move entirely freely.
They go and slide past each other:)
Well, for atoms to stop moving, the temperature would have to be at 0 K, aka absolute zero. However, that's theoretically impossible. Anyway, solid molecules barely move, "vibrating" against each other in a tightly packed space. For liquid molecules, they can slide past each other and move about, but there's not much space between the particles. As for gas, the particles are much faster than particles of solid or liquid, and the particles move about freely, bumping into each other.
Tectonic Plates move by trying to push past each other and by trying to slide past each other.
dont relay on the internet to give you all the answers
The particles have room to move around, but cannot move entirely freely.
They go and slide past each other:)
The particles in a solid state move around one point. The particles in liquids slide past each other. Particles in a gas are farther apart than the particles in a liquid.
The particles in a liquid have a weak force between them. They are still close together like the particles in a solid, just more loosely connected. They can freely move and slide past each other. =)
The particles in a liquid have a weak force between them. They are still close together like the particles in a solid, just more loosely connected. They can freely move and slide past each other. =)
They gain energy, move more rapidly, and slide around each other becoming fluid.
a solid is a material where the particles vibrate randomly but never shift significantly in position relative to each othera liquid is a material where the particles move freely with respect to each other but still stay close to each othera gas is a material where the particles move freely with respect to each other and move far apart from each other
In a liquid particles move around freely and are constantly interacting with each other. They move by bouncing off each other creating friction.
Well, for atoms to stop moving, the temperature would have to be at 0 K, aka absolute zero. However, that's theoretically impossible. Anyway, solid molecules barely move, "vibrating" against each other in a tightly packed space. For liquid molecules, they can slide past each other and move about, but there's not much space between the particles. As for gas, the particles are much faster than particles of solid or liquid, and the particles move about freely, bumping into each other.
Well, for atoms to stop moving, the temperature would have to be at 0 K, aka absolute zero. However, that's theoretically impossible. Anyway, solid molecules barely move, "vibrating" against each other in a tightly packed space. For liquid molecules, they can slide past each other and move about, but there's not much space between the particles. As for gas, the particles are much faster than particles of solid or liquid, and the particles move about freely, bumping into each other.
When plates slide past each other, move toward each other, and move away from each other.
The tectonic plates move divergent when they move away from each other, convergent when they are colliding with each other, and trasform when they slide past each other.