Gas Laws Calculation: Exciting Volume Calculation of Carbon Dioxide!

What is the volume of a 3.50 mol sample of carbon dioxide at 30.0°C and 0.900 atm?

Are you ready to dive into the fascinating world of gas laws and calculate the volume of a 3.50 mol sample of carbon dioxide at specific conditions? Let's find out together!

Final answer:

The volume of a 3.50 mol sample of carbon dioxide at 30.0 degrees Celsius and 0.900 atm can be found using the ideal gas law. By substituting the given values into the gas law equation and solving for volume, we find the volume to be approximately 95.57 liters.

Gas laws are a fascinating aspect of chemistry that allow us to understand the behavior of gases under different conditions. When it comes to determining the volume of a gas sample, we can use the ideal gas law equation, which is PV=nRT. In this case, we are given the number of moles (3.50 mol), temperature (30.0°C), and pressure (0.900 atm) of a carbon dioxide sample.

By plugging these values into the ideal gas law equation and solving for volume, we can calculate that the volume of the 3.50 mol sample of carbon dioxide at 30.0 degrees Celsius and 0.900 atm is approximately 95.57 liters. This calculation demonstrates the principles of gas laws and how they help us analyze and predict the behavior of gases in various conditions.

← Many gyms and health clubs have steam saunas with hot rocks Calculate the dipole moment for hf →