No, the solution remains saturated. It is just that as the temperatures decreases so does the carrying capacity of the solvent.
tlc
After Time Ocean Time Evaporates & The Crystals Dissolve . They Could Appear Smaller .
The water is evaporating and the "crystals" are grains of salt left over.
From looking at a chemical analysis of Sodium Chlorate (NaClO3) it would appear that soda crystals would neutralise it. Mix it up in a solution and pour over. Look here for information: http://www.ihcworld.com/royellis/ABCSafe/chemicals/sodium-chlorate.htm Hope this helps Chris
yes you can all you have to do is wait for the tea to evaporate (turn into gas state) then the sugar crystals will appear
The solute from this solution.
tlc
No, if it holds MORE than it should it is supersaturated.The term supersaturation refers to a solution that contains more of the dissolved material than could be dissolved by the solvent under normal circumstances.Saturation is the point at which a solution of a substance can dissolve no more of that substance (under normal circumstances) and additional amounts of it will appear as a precipitate.
Covalent single- and double-bonds.
Amorphous Crystals ¤Amorphous urates are found in acid urine. These crystals may appear pink on gross analysis and yellow microscopically (Figure 2-12). These crystals appear as granules in the urine sediment. Amorphous phosphates are found in alkaline urine. These granules are colorless microscopically and also appear granular when viewed microscopically. Occasionally amorphous material may appear in clumps or masses. It may be difficult to distinguish amorphous crystals from bacteria since they may be of the same size when viewed microscopically. However, amorphous crystals are soluble in opposing acid or alkaline solution; bacteria will not. Amorphous urates will also dissolve when heated. cited from: http://www.tetonnm.com/pics/MESSamplePages/1-893441-10-5.pdf retrieved 4/11/2009
After Time Ocean Time Evaporates & The Crystals Dissolve . They Could Appear Smaller .
Yes
It depends on the viewing angle: by reflected light the crystals appear dark green, but by transmitted light they appear purple. they also change colour depending on whether they are dry crystals (yellow) or have water attached (green).
True
It depends on the viewing angle: by reflected light the crystals appear dark green, but by transmitted light they appear purple. they also change colour depending on whether they are dry crystals (yellow) or have water attached (green).
No, salt crystalization doesn't defy the law of entropy. Whilst the salt crystals may appear more ordered to our pattern seeking human minds, in actual fact they have lost energy and are now in a less energetic solid state.
Igneous and metamorphic rocks.