Final answer:
The question pertains to the changes in the volume of argon gas and involves applying the ideal gas law, Boyle's Law, Charles's Law, or the combined gas law based on the variables provided. Calculations may include finding new volumes based on varying pressures or temperatures, and understanding the relationship between these gas properties.
Step-by-step explanation:
The student's question deals with the volume changes of argon gas under different conditions, which fall into the domain of Chemistry, specifically regarding gas laws. To solve these types of problems, one would typically apply the ideal gas law, Boyle's Law, Charles's Law, Gay-Lussac's Law, or the combined gas law, depending on the given variables and the process the gas undergoes.
For instance, if the pressure and temperature remain constant while the volume changes, Boyle's Law would be appropriate as it states that pressure and volume are inversely related. Charles's Law could be used when temperature and volume are variables while the pressure is kept constant, indicating that volume and temperature are directly proportional. The combined gas law integrates these relationships and is useful when pressure, volume, and temperature all change but the amount of gas remains constant.
Examples:
Boyle's Law: If the pressure of a gas increases, the volume decreases, maintaining a constant temperature.
Charles's Law: When the temperature of a gas rises, so does its volume, if the pressure is held constant.
Combined Gas Law: This is used to compute the final state of a gas when both temperature and pressure change.
In these problems, students are often asked to calculate the new volume of a gas after a change in pressure or temperature has occurred, or they might need to determine the work done by the gas during a process, suggesting an adiabatic expansion or compression.