How to Solve Ideal Gas Law Problems in Physics

TL;DR

To solve ideal gas law problems in physics, use the equation PV = nRT with pressure in pascals and volume in cubic meters. For example, if a container has a pressure of 85 kPa at 300 K and a volume of 0.1 m³, the number of moles of gas can be calculated using R = 8.3145. Understanding these conversions is crucial for accurate calculations.

Transcript

in this video we're going to talk about how to solve ideal gas law problems but in a typical physics course as opposed to a chemistry course so let's consider this problem we have a 0.1 cubic meter container and the pressure inside this container is 85 kilopascals at 300 kelvin how many moles of gas are in this container now the formula that we nee... Read More

Key Insights

• 🫢 The ideal gas law equation, pv = nrt, is used in physics courses.
• 🤒 Pressure in physics is measured in pascals or newtons per square meter, while in chemistry it is typically in atmospheres.
• 🤒 Volume in physics is measured in cubic meters, while in chemistry it is usually in liters.
• 🫢 The gas constant, R, is 8.3145 in physics, while in chemistry it is often 0.082 06 liters times atm per mole per kelvin.
• 👌 STP refers to standard temperature and pressure, with a temperature of 0 degrees Celsius (273 K) and a pressure of 1 atm (101.3 kPa).
• 🫢 One mole of gas occupies a volume of 22.4 liters at STP.
• #️⃣ Avogadro's number, NA, is the number of molecules per mole and is approximately 6.02 x 10^23.

Summary & Key Takeaways

• The video discusses the use of the ideal gas law equation, pv = nrt, in physics courses instead of chemistry courses.

• It explains the different units of pressure (pascals or newtons per square meter) and gas constant (8.3145) used in physics.

• The video provides examples of solving problems involving the number of moles of gas and volume at different temperatures and pressures.