No, less runoff water.
big chunks by hand obviosly but then you would have to add alcohal or water to absorb smaller particles.
Fine grained sediment would compact more easily because of the smaller spaces between particles.
If one propertys' particles are bigger than the other propetys' particles it will be more easier to separate them because the lighter (smaller) particles would stay suspended in water yet the heavier (bigger) particles would settle to the bottom of the water because they're more dense... hoped that helped:)
Only partially. Protons have 1/4 the mass of alpha particles and 1/2 the charge. As a result, their ability to interact with matter is less.
The most basic answer would be that they dont have the same properties as the bulk material and these particles in the nm size range are governed by quantum mechanics.
The particles would stay on the side of the bank and be known as a runoff.
The particles would stay on the side of the bank and be known as a runoff.
the oceans would become smaller
If smaller means less power for the same voltage, then a smaller bulb would result in less brightness. If smaller means less voltage for the same power, then a smaller builb would result in more brightness.
The ocean would become smaller.
Weathering would create a finer textured soil by breaking small rock particles into smaller rock particles.
It would be smaller. The force on the particles will be the same. However, their bigger mass (inertia) will mean that their sideways acceleration is less than for lighter particles. They travel in a larger arc
Filtration will remove ALL solid particles regardless of their size. To separate materials based on the size of their particles one would use a process of sieving, using a sieve stack with a smaller and smaller mesh size.
The runoff from the roof filled the rain barrel. The runoff from the strip mine killed the fish in the stream.
the force of the particals would prevent you from doing it.
I am not sure but I guess it would result in a new particle of some kind.
In general lighter particles should diffuse faster than heavier particles, this could be extrapolated from the relationship to mass, volume, and energy. If we look at particles of all the same, ideal, substance, we would see that an object with less mass would be smaller but would also require less energy to move. That is, at the same temperature a particle of lower mass would move faster than a similar particle of heavier mass. We also see that smaller particles also maximize surface area/mass - this is also conducive to faster diffusion.