What is the mass of saturated solvent of Potassium nitrate at 80degress in 100g of water
To find the mass of saturated solvent (water) needed to dissolve Potassium nitrate at 80 degrees Celsius, we need to refer to a solubility chart or table for Potassium nitrate.
According to the solubility chart, at 80 degrees Celsius, the maximum solubility of Potassium nitrate in water is approximately 246 grams per 100 grams of water.
Therefore, to calculate the mass of saturated solvent (water) needed to dissolve Potassium nitrate, we can use the proportion:
Mass of Potassium nitrate / Mass of water = Solubility
Let's plug in the numbers:
X / 100g = 246g / 100g
Cross-multiplying, we get:
X = (100g * 246g) / 100g
Simplifying the equation:
X = 246 grams
Therefore, the mass of saturated solvent (water) in 100 grams of water at 80 degrees Celsius is 246 grams.
To find the mass of the saturated solution of potassium nitrate at 80 degrees in 100g of water, we need to know the solubility of potassium nitrate in water at that temperature.
The solubility of potassium nitrate in water increases as the temperature increases. At 80 degrees, we need to find the maximum amount of potassium nitrate that can dissolve in 100g of water, which is known as the solubility limit.
To obtain the solubility limit of potassium nitrate at 80 degrees, refer to a solubility chart or table for potassium nitrate. This information can be found in various chemistry references or online databases.
Once you have obtained the solubility limit, simply multiply it by the mass of water (100g) to determine the mass of potassium nitrate that can dissolve in the given amount of water at 80 degrees.