Monday, March 2, 2020
How to Calculate the Density of a Gas
How to Calculate the Density of a Gas If theà molecular massà of a gasà is known, the ideal gas law can be manipulated to find the density of the gas. Its just a matter of plugging in the right variables and performing a few calculations. How to Calculate Gas Density What is the density of a gas with molar mass 100 g/mol at 0.5 atm and 27 degrees Celsius? Before you begin, keep in mind what youre looking for as an answer in terms of units. Density is defined as mass per unit volume, which can be expressed in terms of grams per liter or grams per milliliter. You may need to do unit conversions. Keep on the lookout for unit mismatches when you plug values into equations. First, start with the ideal gas law: PV nRT where P pressure,à V volume,à n number of moles of gas,à R gas constant 0.0821 Là ·atm/molà ·K, andà T absolute temperatureà (in Kelvin). Examine the units of R carefully. This is where many people get into trouble. Youll get an incorrect answer if you enter a temperature in Celsius or pressure in Pascals, etc. Always use atmosphere for pressure, liters for volume, and Kelvin for temperature. To find the density of the gas, youà need to know the mass of the gas and the volume. First, find the volume. Here is the ideal gas law equation rearranged to solve for V: V nRT/P After you have found the volume, you must find the mass. The number of moles is the place to start. The number of moles is the mass (m) of the gas divided by its molecular mass (MM): n m/MM Substitute this mass value into the volume equation in place of n: V mRT/MMà ·P Density (à ) is mass per volume. Divide both sides by m: V/m RT/MMà ·P Then invert the equation: m/V MMà ·P/RTà MMà ·P/RT Now you have the ideal gas law rewritten in a form you can use with the information you were given. To find the density of the gas, just plug in the values of the known variables. Remember to use absolute temperature for T: 27 degrees Celsiusà 273 300 Kelvinà (100 g/mol)(0.5 atm)/(0.0821 Là ·atm/molà ·K)(300 K) à 2.03 g/L The density of the gas is 2.03 g/L at 0.5 atm and 27 degrees Celsius. How to Decide If You Have a Real Gas The ideal gas law is written for ideal or perfect gases. You can use values for real gases so long as they act like ideal gases. To use the formula for a real gas, it must be at low pressure and low temperature. Increasing pressure or temperature raises the kinetic energy of the gasà and forces the molecules to interact. While the ideal gas law can still offer an approximation under these conditions, it becomes less accurate when molecules are close together and excited.
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