The pressure for 1.0 mol of a gas at 0oC in 3.0L container is calculated to be 75 atm using the ideal gas ecuation (PV =

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The Pressure For 1 0 Mol Of A Gas At 0oc In 3 0l Container Is Calculated To Be 75 Atm Using The Ideal Gas Ecuation Pv 1 (20.73 KiB) Viewed 56 times

The pressure for 1.0 mol of a gas at 0oC in 3.0L container is calculated to be 75 atm using the ideal gas ecuation (PV = nRT). The pressure of the gas is measured and found to be 71 am Which of the following best explains the roason for the discrepancies in the two valdes? OA) Real gas molecules have kinetic energy which is not accounted for in the ideal gas equation O B) Real gas molecules have a certain amount of attraction for one another. The Ideal gas equation assumes that there is no attrac tion between molecules OC) The high pressure causes the molecules to be closer together than the distance calculated in the leagan equation OD) Real gas molecules have a definite volume. The ideal gas equation assumes that the gas molecules are point masses with no volume