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.
