1. 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. Kas the gas constant.)
2. 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.
3. Explain why the student is incorrect.
4. Determine the actual temperature of the ideal gas.
A. 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.)
Answers: 2
Another question on Chemistry
Chemistry, 21.06.2019 22:00
Match each object to its description: a. coma of a comet b. comet tail c. oort cloud haze surrounding a nucleus created by solar wind. hypothetical sphere around the solar system
Answers: 1
Chemistry, 22.06.2019 18:30
What volume of a 0.0606 m solution of strontium bromide is needed to obtain 0.340 mol of the compound? question 42 options: a)5.61 l b) 3.4 l c) 600 ml d) 1 l e) 178 ml
Answers: 1
Chemistry, 22.06.2019 23:30
Substance a is a nonpolar liquid and has only dispersion forces among its constituent particles. substance b is also a nonpolar liquid and has about the same magnitude of dispersion forces among its constituent particles. when substance a and b are combined, they spontaneously mix.
Answers: 1
You know the right answer?
1. Calculate the temperature of 4.00 moles of ideal gas at a pressure of 2.00 atm and a volume
of 5...
Questions
Mathematics, 06.05.2020 23:02
History, 06.05.2020 23:02
Biology, 06.05.2020 23:02
English, 06.05.2020 23:02
Mathematics, 06.05.2020 23:02
Mathematics, 06.05.2020 23:02
Biology, 06.05.2020 23:02
Social Studies, 06.05.2020 23:02
Mathematics, 06.05.2020 23:02
Mathematics, 06.05.2020 23:02
