Search
- https://phys.libretexts.org/Bookshelves/Thermodynamics_and_Statistical_Mechanics/Thermodynamics_and_Statistical_Mechanics_(Nair)/01%3A_Basic_Concepts/1.03%3A_Equation_of_StateIn specifying the equation of state, we will use the absolute temperature, denoted by t. We will introduce this concept later, but for now, we will take it as given. The absolute temperature is always...In specifying the equation of state, we will use the absolute temperature, denoted by t. We will introduce this concept later, but for now, we will take it as given. The absolute temperature is always positive, varying from zero (or absolute zero) to infinity. The ideal gas is then characterized by the equation of state pV=nkT where N denotes the number of molecules of the gas and k is a constant, known as Boltzmann’s constant.
- https://phys.libretexts.org/Bookshelves/University_Physics/University_Physics_(OpenStax)/University_Physics_II_-_Thermodynamics_Electricity_and_Magnetism_(OpenStax)/02%3A_The_Kinetic_Theory_of_Gases/2.02%3A_Molecular_Model_of_an_Ideal_GasThe ideal gas law relates the pressure and volume of a gas to the number of gas molecules and the temperature of the gas. A mole of any substance has a number of molecules equal to the number of atoms...The ideal gas law relates the pressure and volume of a gas to the number of gas molecules and the temperature of the gas. A mole of any substance has a number of molecules equal to the number of atoms in a 12-g sample of carbon-12. The number of molecules in a mole is called Avogadro’s number. The ideal gas law can also be written and solved in terms of the number of moles of gas: pV=nRT and is generally valid at temperatures well above the boiling temperature.
- https://phys.libretexts.org/Bookshelves/Thermodynamics_and_Statistical_Mechanics/Book%3A_Thermodynamics_and_Statistical_Mechanics_(Arovas)/07%3A_Mean_Field_Theory_of_Phase_Transitions/7.01%3A_The_van_der_Waals_system\[\begin{split} &p({v\ns_\Sc},T)\,({w\ns_\SG}-{w\ns_\SL}) + \half\,p\ns_v({v\ns_\Sc},T)\,\big(w_\SG^2-w_\SL^2\big) + \frac{1}{6}\,p\ns_{vv}({v\ns_\Sc},T)\,\big(w_\SG^3-w_\SL^3\big)\\ &\hskip1,5in + \f...\[\begin{split} &p({v\ns_\Sc},T)\,({w\ns_\SG}-{w\ns_\SL}) + \half\,p\ns_v({v\ns_\Sc},T)\,\big(w_\SG^2-w_\SL^2\big) + \frac{1}{6}\,p\ns_{vv}({v\ns_\Sc},T)\,\big(w_\SG^3-w_\SL^3\big)\\ &\hskip1,5in + \frac{1}{24}\,p\ns_{vvv}({v\ns_\Sc},T)\,\big(w_\SG^4-w_\SL^4\big) + \frac{1}{120}\,p\ns_{vvvv}({v\ns_\Sc},T)\,\big(w_\SG^5-w_\SL^5\big) + \ldots \\ &\hskip0.75in=\half({w\ns_\SG}-{w\ns_\SL})\Big\{2\,p({v\ns_\Sc},T) + p\ns_v({v\ns_\Sc},T)\,({w\ns_\SG}+{w\ns_\SL}) + \half\,p\ns_{vv}({v\ns_\Sc},T)\,\big…
- https://phys.libretexts.org/Courses/Joliet_Junior_College/Physics_201_-_Fall_2019v2/Book%3A_Custom_Physics_textbook_for_JJC/12%3A_Temperature_and_Kinetic_Theory/12.06%3A_The_Kinetic_Theory_of_Gases/Molecular_Model_of_an_Ideal_GasThe ideal gas law relates the pressure and volume of a gas to the number of gas molecules and the temperature of the gas. A mole of any substance has a number of molecules equal to the number of atoms...The ideal gas law relates the pressure and volume of a gas to the number of gas molecules and the temperature of the gas. A mole of any substance has a number of molecules equal to the number of atoms in a 12-g sample of carbon-12. The number of molecules in a mole is called Avogadro’s number. The ideal gas law can also be written and solved in terms of the number of moles of gas: pV=nRT and is generally valid at temperatures well above the boiling temperature.
- https://phys.libretexts.org/Courses/Joliet_Junior_College/Physics_201_-_Fall_2019/Book%3A_Physics_(Boundless)/11%3A_Temperature_and_Kinetic_Theory/11.06%3A_The_Kinetic_Theory_of_Gases/Molecular_Model_of_an_Ideal_GasThe ideal gas law relates the pressure and volume of a gas to the number of gas molecules and the temperature of the gas. A mole of any substance has a number of molecules equal to the number of atoms...The ideal gas law relates the pressure and volume of a gas to the number of gas molecules and the temperature of the gas. A mole of any substance has a number of molecules equal to the number of atoms in a 12-g sample of carbon-12. The number of molecules in a mole is called Avogadro’s number. The ideal gas law can also be written and solved in terms of the number of moles of gas: pV=nRT and is generally valid at temperatures well above the boiling temperature.
