Only at a TEMPERATURE of Absolute Zero. There is no Molecular motion at that point.
The point where particles in a medium stay when there are no disturbances is called the equilibrium position. At this point, the particles are at rest and do not experience any displacement. When a disturbance occurs, the particles oscillate around their equilibrium position.
Big particles fall due to the force of gravity being greater than the force of air resistance. The weight of the large particles causes them to overcome the buoyant force of the air. This causes them to fall or settle to the ground rather than remain suspended in the atmosphere.
In a quiet body of water, fine particles like silt, clay, and organic matter are more likely to stay suspended because there is less turbulence to help them settle. Larger particles, like sand or gravel, will typically settle more quickly in still water due to gravity.
The line in a rotating body along which the particles of the body stay in the same position (my guess).
The frequency of the light wave remains unchanged when it enters a new medium. This is because the frequency of a wave is determined by its source and does not change as it moves from one medium to another.
wood is an insulator because charges stay on the point of contact.
No. The individual particles of the medium wiggle back and forth, but stay in the same average position. It's the wiggle that travels from the source to the receiver, like the 'wave' through the grandstand.
No, that is simply liquid in a container. It happens that milk is actually a colloidal dispersion, which means that microscopic particles are evenly distributed in a (semi) liquid medium that will stay together. A suspension means that slightly larger particles are evenly distributed in a (semi) liquid medium that will ultimately separate again.
its been designed in that way so as to withstand air friction and atmospheric disturbances
That all depends on if you want it Medium or Medium well
Marble particles are held together by strong intermolecular forces such as ionic or covalent bonds, which prevent them from mixing with water particles. Additionally, marble is insoluble in water, meaning it does not dissolve or mix with the water molecules. The physical properties of marble and water also play a role in their inability to mix with each other.
opposites attract. the particles are attracted to the positively charged particles.
The particles stay rigid in all states.
In solids, particles tend to stay still, and are close together
Liquid particles are loosely packed in the container. They do move around but the particles are bond to each other loosely. So the liquid particles stay together.
It depends if it's a solid, liquid, gas, or plasma. Solid particles will stay still and vibrate.
Aluminum particles can stay airborne for several days when released into air
Depends on the size of the particles.