Boyle's Law Lab Report

Lab Report on Boyles Law: Pressure-Volume Relationship in Gasses Object: The object of this lab is to determine the relationship mingled with the military press and people of a confined gas. This relationship is shown by Boyles law. performance: Hook up the thrust sensor graduate the pressure sensor. First, open the perspective arm and bring down as 1 atm. Next, put the plunger at 5mL. Third, close the location arm and pull the plunger to 10 mL and set down this as 0.5 atm. The pressure sensor is calibrated. Collect data for 5 mL, 7.5 mL, 10 mL, 12.5 mL, 15 mL, 17.5 mL, and 20 mL. Connect the dots on the line. print a copy of the graph window and data window. Do the extension. Data: intensity (mL) Pressure(atm) Constant, k (PxV) 5.0 2.0 10.0 7.5 1.3 9.75 10.0 1.0 10.0 12.5 0.8 10.0 15.0 0.7 10.5 17.5 0.6 10.5 20.0 0.5 10.0 k=PV ex. 10.0= 5.0x 2.0 Conclusion: When the crapper was doubled from 5.0 mL to 10.0 m L the pressure was halved from 2.0 atm to 1.0 atm. If the good deal is halved from 20.0 mL to 10.0 mL the pressure is doubled from 0.5 atm to 1.0 atm.

If the raft is tripled from 5.0 mL to15.0 mL the pressure is multiplied by 1/3. It went from 2.0 atm to 0.7 atm. The relationship between the pressure and volume of a confined gas is inverse. The line of the graph is curved non straight, this indicates an validating relationship. If the volume was 40 mL. the pressure would be 0.25 atm. 40 x 0.25 =10.0. If the volume was 2.5 mL the pressure would be 4.0 atm. 2.5 x 4.0 = 10.0. The bend of moles of the gas and the te mperature are assumed to be unending in thi! s experiment. PV=k. Pressure is inversely comparative to volume. Pressure is outright proportional to the reciprocal of volume. This can be proved mathematicallyIf you fate to engender a full essay, order it on our website: OrderCustomPaper.com

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