It depends on the colloid, really. If there are solid particles in the colloid, then they can be filtered. But you would need an extremely fine filter to be able to do so. In the case that the particles are liquid, then the answer would be no.
the particles slow down. hope this helps! :)
A Suspension Here the particle size can be viewed by the naked eye. The particles display the tyndal effect where the particles are used as the medium for light rays. The particles also settle down after a short period of time and this mixture can be seperated using a funnel or evaporation(if it is an aqueous solution).
By applying enough pressure.
Loess is deposited by wind.
agglomerate
The particles are too fine for the sand to trap, sand filters trap particles down to 25 microns. Dead algae can be a lot finer than that. The only filter that can trap real fine particles down to 3 microns are d.e. filters.
To nebulize means to break something down into tiny particles. A nebulizer breaks medicines down into tiny droplets representing a fine mist.
Dust is very fine particles of soil or ash and soot is very fine particles of carbon.
D. FINE SILT PARTICLES
It depends on the colloid, really. If there are solid particles in the colloid, then they can be filtered. But you would need an extremely fine filter to be able to do so. In the case that the particles are liquid, then the answer would be no.
Cause they do
Sand is rock or coral that has been broken down by weathering or mechanical means to a fine grain size.
Siltstone.
the answer is ash
what causes particles to slow down and contract
the particles slow down. hope this helps! :)