whats the conclusion of solibility of potassium nitrate
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You can predict the solubility curve vs Temperature for adiptic acid in water by plotting a graph.
When using a solubility curve to make a prediction about the amount of a solute within a solution, you must increase the amount of solute to make a solution, which will give you a concentrated solution
Grams of solute per 100 grams of water
The reaction represented by curve B will go faster than the curve A reaction (apex 8.5.3 Test)
i actually don't know people sorry but come on you can use other sites rather than this trash!
Solubility of NaNO3 is 1.25 kg/kgwater. There are solubility vs temperature curve of many sodium salt available in the internet and text book.
You can predict the solubility curve vs Temperature for adiptic acid in water by plotting a graph.
Temperatures are usually written on the x-axis of a solubility curve. Grams per 100 grams of water is usually shown on the y-axis.
When using a solubility curve to make a prediction about the amount of a solute within a solution, you must increase the amount of solute to make a solution, which will give you a concentrated solution
It is a curve solubility (in grams of solute to 100 g watere) versus temperature. See at the link below some examples.
Grams of solute per 100 grams of water
Grams of solute per 100 grams of water
Actually, this is a very simple metathesis reaction. Dissolving NaNO3 and KCl in hot water will produce a solution of Na+, K+, NO3-, and Cl- ions. Simply cooling this solution will cause the anion/cation combination with the lowest solubility to selectively precipitate out. Looking at some data for these salts:KCl: 280g/L (0°C)NaNO3: 730g/L (0°C)KNO3: 130g/L (0°C)NaCl: 360g/L (0°C)Potassium nitrate has a relatively steep solubility vs temperature curve, and is the least soluble at 0°C, so it will crystallize very readily from a hot saturated solution that has been chilled to around the freezing point of pure water. Filtering out and collecting the precipitated KNO3 just leaves you with a solution of mostly Na+ and Cl- ions. The solubility of NaCl is quite high and doesn't change much with temperature, so it's possible to extract quite pure KNO3 directly from this reaction.
The reaction represented by curve B will go faster than the curve A reaction (apex 8.5.3 Test)
The specific answer to this question depends on the exact solubility curve diagrams you are looking at. However, a web search for images of solubility curves provide many common curves. Using those images shows that sodium chloride, NaCl, often has the least change in solubility in water from 0-100 degrees C.
Unsaturated solutions - more solute could be dissolved at the temperature. The solubility curve indicates the concentration of a saturated solution- the maximum amount of solute that will dissolve at that specific temperature. Values below the curve represent unsaturated solutions - more solute could be dissolved at that temperature. Values above the curve represent supersaturated solutions, a solution which holds more solute that can normally dissolve in that volume of solvent.