Which of the following best describes kinetic molecular theory definition of an ideal gas? O Gas particles intermolecular forces effect the pressure exerted on a container wall with no volume effect due to gas particle collisions. Gas particles intermolecular forces effect the pressure exerted on a container wall and volume effect occurs due to gas particle collisions. Gas particles intermolecular forces do not effect the pressure exerted on a container wall with no volume effect due to gas particle collisions. O Gas particles intermolecular forces do not effect the pressure exerted on a container wall but volume effect occurs due to gas particle collisions. Gas particles intermolecular forces do not effect the pressure exerted on a container wall with no volume effect due to gas particle collisions and particle collisions are inelastic.

 Which of the following best describes kinetic molecular theory definition of an ideal gas?

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Which of the following best describes kinetic molecular theory definition of an ideal gas? O Gas particles intermolecular forces effect the pressure exerted on a container wall with no volume effect due to gas particle collisions. Gas particles intermolecular forces effect the pressure exerted on a container wall and volume effect occurs due to gas particle collisions. Gas particles intermolecular forces do not effect the pressure exerted on a container wall with no volume effect due to gas particle collisions. O Gas particles intermolecular forces do not effect the pressure exerted on a container wall but volume effect occurs due to gas particle collisions. O Gas particles intermolecular forces do not effect the pressure exerted on a container wall with no volume effect due to gas particle collisions and particle collisions are inelastic.