E13.007 – A sample of an industrial waste water
OWLv2 for General Chemistry
Cengage
01st Edition
Industrial waste water analysis shows X ppb of a substance. How many grams of the substance can be recovered from X kg of waste water?
Industrial waste water analysis shows X ppb of a substance. How many grams of the substance can be recovered from X kg of waste water?
A gas, it’s partial pressure and kH value are given. Determine the solubility of the gas in g/L.
A gas, it’s solubility and kH value are given. Determine the partial pressure (in mm Hg) needed to maintain this solubility.
The molar mass of a nonvolatile nonelectrolyte is given. X grams of that compound are dissolved in x mL of a substance at x Kelvins. Determine the Molarity of the solution and the osmotic pressure in atms.
In the lab a student creates a new nonvolatile nonelectrolyte compound. X grams are dissolved in x mL of water. Osmotic pressure (atm) and temperature (K) are also given. Determine the molecular weight.
Determine the osmotic pressure. X grams of a compound are mixed with X mL of solution. Temperature in K and the can’t Hoff factor are also given.
The normal boiling point of a liquid is given. X grams of a nonelectrolyte if dissolved in x grams of the liquid. Calculate the boiling point. Kpb is also given.
The normal freezing point of a liquid is given. X grams of a nonelectrolyte if dissolved in x grams of the liquid. Calculate the freezing point. Kfb is also given. The normal freezing point of a liquid is given. X grams of a nonelectrolyte if dissolved in x grams of the liquid. Calculate the freezing point. Kfb is also given.
The normal boiling point and Kbp are given for a liquid. The formula and molar mass of an electrolyte are given. What is the boiling point?
The normal freezing point and Kfp are given for a liquid. The formula and molar mass of an electrolyte are given. What is the freezing point?