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Atomicity given Molar Heat Capacity at constant pressure of Linear Molecule

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Atomicity given Molar Heat Capacity at constant pressure of Non-Linear Molecule

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Atomicity using Molar Heat Capacity at constant Pressure and Volume of Linear Molecule

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Atomicity using Molar Vibrational Energy of Linear Molecule

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Atomicity using Molar Vibrational Energy of Non-Linear Molecule

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Atomicity using Ratio of Molar Heat Capacity of Linear Molecule

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Atomicity using Ratio of Molar Heat Capacity of Non-Linear Molecule

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Atomicity using Vibrational Energy of Linear Molecule

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Atomicity using Vibrational Energy of Non-Linear Molecule

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Atomicity using Vibrational Mode of Linear Molecule

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Atomicity using Vibrational Mode of Non-Linear Molecule

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Average thermal energy of linear polyatomic gas molecule

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Average thermal energy of linear polyatomic gas molecule in terms of atomicity only

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Average thermal energy of non-linear polyatomic gas molecule

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Average thermal energy of non-linear polyatomic gas molecule in terms of atomicity only

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Degree of Freedom given Ratio of Molar Heat Capacity

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Degree of Freedom in terms of Molar Heat Capacity at constant pressure only

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Degree of Freedom in terms of Molar Heat Capacity at constant volume only

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Internal Molar Energy of Linear Molecule

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Internal Molar Energy of Non-Linear Molecule

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Molar Heat Capacity at constant pressure given only Degree of Freedom

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Molar Heat Capacity at constant volume given only Degree of Freedom

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Molar Heat Capacity at constant volume of Linear Molecule

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Molar Heat Capacity at constant volume of Non-Linear Molecule

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Molar Vibrational Energy of Linear Molecule

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Molar Vibrational Energy of Non-Linear Molecule

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Number of modes in Linear Molecule

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Number of modes in Non-Linear Molecule

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Rotational Energy of Linear Molecule

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Rotational Energy of Non-Linear Molecule

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Specific Heat Capacity in terms of heat capacity

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Temperature using Average thermal energy of linear polyatomic gas molecule

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Temperature using Average thermal energy of non-linear polyatomic gas molecule

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Temperature using Molar Vibrational Energy of Linear Molecule

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Temperature using Molar Vibrational Energy of Non-Linear Molecule

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Temperature using Vibrational Energy of Linear Molecule

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Temperature using Vibrational Energy of Non-Linear Molecule

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Total Kinetic Energy

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Translational Energy

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Vibrational energy modeled as harmonic oscillator

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Vibrational Energy of Linear Molecule

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Vibrational Energy of Non-Linear Molecule

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Vibrational Mode of Linear Molecule

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Vibrational Mode of Non-Linear Molecule

28 More Equipartition Principle and Heat Capacity Calculators

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Average velocity of gas given pressure and density

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Average velocity of gas given pressure and volume

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Average velocity of gas given pressure and volume in 2D

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Average velocity of gas given root mean square speed

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Average velocity of gas given temperature

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Average velocity of gas given temperature in 2D

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Compressibility factor given molar volume of gases

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Critical pressure given Vander Waal constants

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Critical pressure without the use of Van der Waals constant

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Critical temperature given Vander wall constants

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Critical temperature without the use of Van der Waals constant

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Critical volume given Vander Waal constant b

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Critical volume without the use of Van der Waals constant

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Density of gas given average velocity and pressure

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Density of gas given most probable speed pressure

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Density of gas given most probable speed pressure in 2D

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Density of gas given root mean square speed and pressure

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Density of gas given root mean square speed and pressure in 2D

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Force by gas molecule on the wall of the box

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Kinetic energy given n mole of gas

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Kinetic energy in terms of pressure and volume of gas

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Kinetic energy of gas 1 if the mixture of gas is present

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Kinetic energy of gas 2 if the mixture of two gas is present

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Length of rectangular box given time of collision

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Length of the box given force

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Mass of each gas molecule in 3D box given pressure

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Mass of gas molecule given force

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Mass of gas molecule in 1D given pressure

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Mean square speed of gas molecule given pressure and volume of gas

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Molar mass given most probable speed and temperature

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Molar mass given most probable speed and temperature in 2D

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Molar mass of gas given average velocity, pressure, and volume

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Molar mass of gas given most probable speed, pressure and volume

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Molar mass of gas given root mean square speed and pressure

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Molar mass of gas given root mean square speed and temperature

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Molar mass of gas given root mean square speed and temperature in 1D

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Molar mass of gas given root mean square speed and temperature in 2D

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Molar mass of gas given temperature and average velocity

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Molar mass of gas given temperature and average velocity in 2D

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Molar volume of perfect gas in terms of compressibility factor

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Molar volume of real gas in terms of compressibility factor

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Most probable velocity of gas given pressure and density

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Most probable velocity of gas given pressure and density in 2D

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Most probable velocity of gas given pressure and volume

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Most probable velocity of gas given RMS velocity

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Most probable velocity of gas given temperature

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Most probable velocity of gas given temperature in 2D

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Number of gas molecules in 3D box given pressure

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Number of moles given kinetic energy

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Number of moles of gas 1 given kinetic energy of both gases

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Number of moles of gas 2 given kinetic energy of both gases

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Pressure exerted by a single gas molecule in 1D

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Pressure of gas given average velocity and density

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Pressure of gas given average velocity and volume

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Pressure of gas given average velocity and volume in 2D

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Pressure of gas given kinetic energy

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Pressure of gas given most probable speed and density

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Pressure of gas given most probable speed and volume

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Pressure of gas given most probable speed and volume in 2D

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Pressure of gas given root mean square speed and density

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Pressure of gas given root mean square speed and Volume

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Pressure of gas given root mean square speed and Volume in 1D

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Pressure of gas given root mean square speed and Volume in 2D

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Pressure of gas in terms of compressibility factor

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Pressure of gas molecules in 3D box

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RMS velocity given most probable velocity

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RMS velocity given most probable velocity in 2D

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RMS velocity in terms of pressure and density

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RMS velocity in terms of pressure and density in 1D

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RMS velocity in terms of pressure and volume of gas

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RMS velocity in terms of pressure and volume of gas in 1D

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RMS velocity in terms of pressure and volume of gas in 2D

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RMS velocity in terms of temperature and molar mass

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RMS velocity in terms of temperature and molar mass in 2D

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Root mean square speed given average velocity

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Speed of gas molecule given force

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Speed of gas molecule in 1D given pressure

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Speed of the particle in 3D box

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Temperature given most probable speed and molar mass

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Temperature given most probable speed and molar mass in 2D

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Temperature of gas 1 given kinetic energy of both gases

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Temperature of gas 2 given kinetic energy of both gases

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Temperature of gas given average velocity

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Temperature of gas given average velocity in 2D

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Temperature of gas given kinetic energy

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Temperature of gas given root mean square speed and molar mass

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Temperature of gas in terms of compressibility factor

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Time between collisions of particle and walls

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Vander Waal constant b given critical pressure

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Vander Waal constant b given critical temperature

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Vander Waal constant b given critical volume

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Vander Waal constant given critical pressure

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Vander Waal constant given critical temperature

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Volume of box having gas molecule given pressure

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Volume of gas given average velocity and pressure

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Volume of gas given average velocity and pressure in 2D

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Volume of gas given kinetic energy

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Volume of gas given most probable speed and pressure

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Volume of gas given most probable speed and pressure in 2D

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Volume of gas given root mean square speed and Pressure

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Volume of gas given root mean square speed and Pressure in 2D

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Volume of gas molecules in 3D box given pressure

43 More Kinetic Theory of Gases Calculators

Created
Degree of dissociation given initial vapor density

Created
Degree of dissociation given number of moles at equilibrium

Created
Degree of dissociation using concentration of reaction

Created
Degree of dissociation using initial vapour density and vapour density at equilibrium

Created
Degree of dissociation using total moles at equilibrium

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Degree of dissociation using total moles at equilibrium and initial moles

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Degree of dissociation when number of moles is 2

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Degree of dissociation when number of moles of products at equilibrium is half

Created
Initial total moles

Created
Initial total moles using degree of dissociation

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Initial total moles using total moles at equilibrium and number of moles of reaction

Created
Initial vapour density

Created
Initial vapour density given degree of dissociation

Created
Initial vapour density given molecular weight

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Initial vapour density given theoretical molecular weight

Created
Initial vapour density given Van't Hoff factor

Created
Initial vapour density using concentration of reaction

Created
Initial vapour density using vapour density at equilibrium and number of moles

Created
Initial vapour density when number of moles is 2

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Initial vapour density when number of moles of products at equilibrium is half

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Molecular weight abnormal given vapour density at equilibrium

Created
Molecular weight of substance given initial vapour density

Created
Number of moles of products using degree of dissociation

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Number of moles of substance A and B at equilibrium

Created
Theoretical molecular weight given initial vapour density

Created
Total moles at equilibrium

Created
Total moles at equilibrium given number of moles of reaction

Created
Total moles at equilibrium using degree of dissociation

Created
Total moles at equilibrium using number of moles and initial total moles

Created
Van't Hoff factor in terms of vapour densities

Created
Vapour density at equilibrium

Created
Vapour density at equilibrium given molecular weight abnormal

Created
Vapour density at equilibrium given number of moles of reaction

Created
Vapour density at equilibrium given Van't Hoff factor

Created
Vapour density at equilibrium using conc of reaction

Created
Vapour density at equilibrium using degree of dissociation

Created
Vapour density at equilibrium using initial vapour density and number of moles

Created
Vapour density at equilibrium when number of moles is 2

Created
Vapour density at equilibrium when number of moles of products at equilibrium is half

Created
Volume of equilibrium mixture of substances A and B

Created
Volume of solution given initial vapour density