PBA Review

Gas Laws

Stoichiometry

Limiting Reactants

Chemical Reactions

Lab Logic

100

The "R" stands for this in the ideal gas law equation PV = nRT

What is the ideal gas constant (0.0821 L·atm/mol·K)

100

What is the first step in any stoichiometric calculation?

Balance the chemical equation.

100

What is a limiting reactant?

The reactant that runs out first and limits the reaction.

100

What kind of reaction is this: AB → A + B?

Decomposition

100

Name one safety rule you must follow in a chemistry lab.

Wear goggles, tie back hair, no eating, etc.

200

Convert 25°C to Kelvin.

298 K

200

Define "mole ratio."

The ratio of coefficients from a balanced equation.

200

Why is identifying the limiting reactant important?

It determines how much product is formed.

200

How can you tell a chemical reaction has occurred? Name two possible signs.

Color change, temperature change, gas production, precipitate formation, or light emission.

200

What should you do if your data doesn’t match your calculations?

Recheck work, analyze sources of error.

300

A gas occupies 2.0 L at 1 atm and 273 K. What is the number of moles?

n = PV/RT = (1×2)/(0.0821×273) ≈ 0.089 mol

300

Convert 36 g of water (H₂O) to moles.

36 g ÷ 18.02 g/mol = 2.00 mol

300

If you have 4 mol A and 5 mol B for the reaction A + 2B → C, which is limiting?

B is limiting (needs 8 mol, but only 5 are available).

300

What do coefficients in a balanced equation represent?

Mole ratios

300

What should you check first if a gas-collecting reaction produces no visible change?

Check that the reactants were mixed properly, equipment was sealed, and the reaction setup was correct (no leaks or missing materials)

400

What happens to volume if temperature increases at constant pressure?

Volume increases (direct relationship – Charles's Law)

400

In the reaction 2H₂ + O₂ → 2H₂O, how many moles of O₂ are needed for 4 mol H₂?

2 mol O₂

400

How can you experimentally tell which reactant is in excess?

Excess will be left unreacted at the end.

400

Write the balanced equation for the combustion of methane.

CH₄ + 2O₂ → CO₂ + 2H₂O

400

What factors could cause lower-than-expected product amounts?

Incomplete reaction, leaks, measurement error.

500

A sample of gas at 1.5 atm and 305 K occupies 0.750 L. Solve for n.

n = PV/RT ≈ (1.5×0.75)/(0.0821×305) ≈ 0.045 mol

500

Given 3.0 mol of A in the reaction A + 2B → 3C, how many mol of C?

3.0 mol A × (3 mol C / 1 mol A) = 9.0 mol C

500

Describe how to determine the limiting reactant using stoichiometry.

Convert both reactants to moles of product and see which makes less.

500

Why must equations be balanced?

To obey the law of conservation of mass.

500

What makes an experimental design “optimal”?

It meets the goal efficiently and with minimal waste.