Yes.
Dust particles typically exist in the solid phase, as they are made up of solid particles that can be suspended in the air.
No, particles in a solid only vibrate, whereas particles in a liquid are free to move within the liquid.
No, the particles in a solid are usually closer together than the particles in a liquid. In a solid, the particles are tightly packed and have a fixed position, while in a liquid, the particles are more loosely packed and can move around.
amphorous solid
solid
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.
Liquid particles can nove around more than Solid particles they are in rows and have very strong bonds Liquid particles can nove around more than Solid particles they are in rows and have very strong bonds
The particles of a solid are close together and the particles of a liquid are slightly farther apart.
No. Gas particles move much faster than solid particles.
If the object is completely solid the particles don't move
Dust particles typically exist in the solid phase, as they are made up of solid particles that can be suspended in the air.
No, particles in a solid only vibrate, whereas particles in a liquid are free to move within the liquid.
Atoms are in a solid but as in particles it depends on the object.
Solid particles in gas are called aerosols. These are tiny solid or liquid particles suspended in a gas, such as dust, smoke, or mist.
Sublimation is the conversion from solid directly to gas, so the particles of a solid that sublimes would change into a gas.
A solid has tightly packed particles.
A liquid has a medium density because its particles are more closely packed together compared to a gas, but less closely packed compared to a solid. The spacing between the particles allows for the liquid to flow and take the shape of its container while still retaining a certain level of density.