Snow is precipitation in the form of flakes of crystalline water ice that falls from clouds. Why is it not another colour?
1$\begingroup$ Sometimes it can be. There's "watermelon snow" which is pink due to algae. And in the right conditions, you can get crystals that produce prismatic reflections. $\endgroup$– jamesqfApr 16, 2016 at 18:07
2$\begingroup$ Why are the seven dwarves? $\endgroup$– Ryan MortensenJul 2, 2016 at 19:13
Normal ice (as in refrigerated ice cubes) mostly has uniform crystalline structure - water molecules are in a perfect hexagonal grid, which enables it to be transparent.
Not all ice is like that - for example, if you freeze water that contains tiny water bubbles due to a faucet aerator, the resulting ice would likely look white because the tiny air bubbles get frozen too, their edges forming multitudes of tiny prisms that produce all colours of the rainbow, averaged as white or bluish white.
Snowflakes are made of very fine structures of ice, thus also forming such prisms, also looking white as the result. Because their structure ranges widely, some snowflakes are more transparent than others, but almost all look white regardless. Snow is in fact semi-transparent too, easily evidenced when a thin layer of it covers a coloured surface, and also by shining some light through it.
Under a good microscope, a small portion of a snowflake may look like a transparent ice structure, sporting rainbow colours on the edges. However as you zoom out, finer parts blur and start to look more white. Some snowflakes have more finer details and impurities that can be captured with average optical microscopes so they appear white even magnified.
'White' colour itself is just how we describe achromatic (non-tinted) light. Further, human eyes adjust to lighting colour to treat it as white. If you project tinted light onto snow, it would of course look tinted. However, it may look less tinted than paper in similar conditions because snow tends to reflect light coming from every angle better.
Snow has a very high albedo. Actually, it reflects all wavelengths of the visible spectrum, whilst absorbing no particular wavelength. Hence the eye averages out the multiple reflected wavelengths as 'white' - as is the case with most fine granular solids.