Chemistry, 12.04.2021 21:20 alexsk6357
Calculate the temperature of 4.00 moles of ideal gas at a pressure of 2.00 atm and a volume of 54.0 L.
(Use 0.0821 L · atm/mol · K as the gas constant.)
Determine what happens to the pressure of the above sample of ideal gas if the volume is halved and the temperature doubles.
A student states that if the volume of a sample of ideal gas increases to three times the original volume, and the pressure also increases to three times the original pressure, the temperature of the gas will remain unchanged
-Explain why the student is incorrect.
- Determine the actual temperature of the ideal gas.
Answers: 1
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Chemistry, 23.06.2019 07:00, kotetravels10
0.88 moles of n2o5 (g) was placed in a sealed 1.00 l vessel. calculate the equilibrium concentration of n2o5. no2, and o2 and the equilibrium constant after equilibrium has been reached by 65.0% of the n2o5 decomposing.
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Calculate the temperature of 4.00 moles of ideal gas at a pressure of 2.00 atm and a volume of 54.0...
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