Gas Laws Graphing Lab Purpose: The purpose of this activity is to use a simulator to observe how gases behave under various changing conditions. In this activity, you will measure different properties of a gas in order to determine the relationships between pressure, volume, and temperature. Go to the following website to access the simulator: https://teachchemistry.org/periodical/issues/november-2015/gas-laws Part 1: Boyle's Law Procedure: 1) Click on the "Boyle's Law" tab. 2) Notice that you can change the volume and the pressure of the gas sample by clicking on the arrows. Notice that temperature is held constant for you. 3) Change the volume of the gas container to 5 different volumes. Record the volume and the exact pressure at each volume (click the calculate button) in the data table. 4) After you have 5 different data points, graph your data. Your graph will be of Pressure vs. Volume (remember: Y vs. X). Make sure your axes are labeled with units! Connect the data points on your graph. V: Pressure [kPu] vs Volume[L] bruph Data: Volume (L) Pressure (atm) l0oatm 0-811atm 0.667atm 0.bo0 atm 3,00L 3. 1oL 4.50L 0800 0.b00 0.400 5.40L 0-L00 B00 600 Volume [L] Analysis Questions: 1) What type of relationship exists between pressure and volume of a gas? What evidence from the lab supports this? 2) What experimental factors are assumed to be held constant in this experiment? 3) Using your knowledge of the kinetic molecular theory, explain why this relationship between pressure and volume exists. PressureEk Pa]

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Gas Laws Graphing Lab Purpose: The purpose of this activity is to use a simulator to observe how gases behave under various changing conditions. In this activity, you will measure different properties of a gas in order to determine the relationships between pressure, volume, and temperature. Go to the following website to access the simulator: https://teachchemistry.org/periodical/issues/november-2015/gas-laws Part 1: Boyle's Law Procedure: 1) Click on the "Boyle's Law" tab. 2) Notice that you can change the volume and the pressure of the gas sample by clicking on the arrows. Notice that temperature is held constant for you. 3) Change the volume of the gas container to 5 different volumes. Record the volume and the exact pressure at each volume (click the calculate button) in the data table. 4) After you have 5 different data points, graph your data. Your graph will be of Pressure vs. Volume (remember: Y vs. X). Make sure your axes are labeled with units! Connect the data points on your graph. V= Pressure [kPu] vs Volume(L] bruph Data: Volume (L) Pressure (atm) 1.0o atm 0-811 atm 0.667atm 0.600 atm 3,00L 1.000 3.1oL 0800 4.50L 0.b00 0.400 0-L00 Volume [L] Analysis Questions: 1) What type of relationship exists between pressure and volume of a gas? What evidence from the lab supports this? 2) What experimental factors are assumed to be held constant in this experiment? 3) Using your knowledge of the kinetic molecular theory, explain why this relationship between pressure and volume exists. Part 2: Charles' Law Procedure: ressuretk Pa]