Ideal Gases (SL IB Chemistry)

An empty 1.5 dm³ Tupperware container has been kept in the fridge without a lid at 5 °C. The container is removed from the fridge and allowed to reach a temperature of 21 °C. Using your knowledge of Charles's Law, determine the volume of gas, in cm³, that escaped from the container. 

A balloon contains 2500 mL of helium gas at a temperature of 75 °C. Determine the new volume in mL of the gas when the temperature changes to 55 °C assuming the pressure is constant. Give your answer to three significant figures. 

A 10.0 L container of helium gas with a pressure of 33 000 Pa at 0 °C is heated until the new pressure is 200 000 Pa. Determine the new temperature of the gas assuming the volume remains constant. 

Oxygen exists as a diatomic gas, O₂ (g). A sample of O₂ (g) was made during a chemical reaction. When measured at 303 kPa and 28 °C the sample occupied a volume of 95.0 cm³.

Calculate the mass of oxygen formed.

O₂ (g) does not behave as an ideal gas under these conditions. 

Explain why O₂ (g) behaves even less ideally at:

• very high pressures
• very low temperatures

The homologous series of alkanes undergo combustion with oxygen.

A 2.0 dm³ flask contains 10.84 g of a gaseous alkane, X. The pressure in the flask is 300 kPa and the temperature is 20 ^oC.

Write an equation for the complete combustion of X.

Gas cylinders of helium, like the one shown below, are sometimes used to inflate party balloons.

Figure 1

A typical 11-inch party balloon has a fully inflated volume of 14.1 dm³. The pressure in the gas cylinders is 20,000 kPa. If the gas cylinder can fill 160 balloons at 298 K and 108 kPa, what is the total volume of helium inside the gas cylinder in dm³?

Sketch a graph to show the relationship between the volume and temperature of an ideal gas at constant pressure. Describe the relationship between the two variables.

Deep sea divers sometimes breathe mixtures of helium and oxygen in their scuba diving tanks when the conditions are very deep, so they can avoid nitrogen narcosis.

If a bubble of gas escapes from a scuba tank at 60 m depth where the pressure is 588 kPa and the temperature is 8 ^oC, determine the increase in the size of the bubble by the time it reaches the surface where the pressure is 100 kPa and the temperature is 20 ^oC.

Commercial aircraft are fitted with oxygen cannisters that provide a supply of oxygen in case of the loss of cabin pressure. The cannisters contain sodium chlorate(V) which produces oxygen in the following decomposition reaction.

2NaClO₃ (s) " 2NaCl (s) + 3O₂ (g)

Determine the mass of sodium chlorate(V) needed to produce 10.0 dm³ of oxygen at 298 K and 90 kPa.

Ammonia and nitrogen monoxide react together according to the following equation:

                        4NH₃ (g) + 6NO (g) → 5N₂ (g) + 6H₂O (g)

50.0 dm³ of ammonia is reacted with 50.0 dm³ of nitrogen monoxide at 150.0 ^oC and 100 kPa. Identify the excess reagent and determine the volume of nitrogen produced.

Determine the volume of excess gas and hence total volume of gas after the reaction has finished.

What mass of nitrogen is produced in the reaction? Express your answer to an appropriate number of significant figures.

Explain why calculating the gas volumes in the reaction is likely to be more accurate at 150 ^oC than at room temperature.