- Solve these ideal gas law problems. Show all work for credit.
- A gas occupies 250 mL at 739 mmHg. For a gas at constant temperature, determine the volume of gas at 514 mmHg.
- Use the molar volume of a gas, at STP, to determine the number of moles of CO2 in 4.00 L of CO2 gas.
- A sample of nitrogen (N2) has a volume of 50.0 L at a pressure of 2 ATM. What is the volume of gas at a pressure of 15 atm, if there is no change in temperature?
- A 0.6 L canister of Oxygen gas has a temperature of 297 K contains 21 mols of O2 gas. What is the pressure of this tank?
- Calculate the pressure, in atmospheres, of 8.67 mol CO(g) in a 2.0 L tank at 48 degrees C.
- According to the Bronstead Lowery acid/base theory, what is the definition of an acid and a base?
- According to the Bronstead Lowery acid/base theory, determine the acids and bases in the following chemical reactions:
- Name the following compounds and identify each of the following as a salt, strong acid, weak acid, strong base, or weak base.
- Rank the following solutions in order of how acidic they are from most acidic to least acidic.
- Predict the Products of the reaction below:
- For the following redox reactions, determine what is oxidized and what is reduced:
- State the properties of a buffer solution and the key components of such a solution.
Instituition / Term | |
Term | Session 2019 |
Institution | Chamberlain |
Contributor | Karin Austin |