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

B). Gas particles intermolecular forces affect the pressure exerted on a container wall and volume…

Answered: Which of the following best describes…

Living by Chemistry

2nd Edition

ISBN:9781464142314

Author:Angelica M. Stacy

Publisher:Angelica M. Stacy

ChapterU3: Weather: Phase Changes And Behaviour Of Gases

Section: Chapter Questions

Problem 11STP

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Similar questions

Most mixtures of hydrogen gas with oxygen gas are explosive. However, a mixture that contains less than 3.0 % O2 is not. If enough O2 is added to a cylinder of H2 at 33.2 atm to bring the total pressure to 3-13 atm, is the mixture explosive?
A sample of a compound of xenon and fluorine was confined in a bulb with a pressure of 18 tor. Hydrogen was added to the bulb until the pressure was 72 torr. Passage of an electric spark through the mixture produced Xe and HF. After the HF was removed by reaction with solid KOH, the final pressure of xenon and unreacted hydrogen in the bulb was 36 torr. What is the empirical formula of the xenon fluoride in the original sample? (Note: Xenon fluorides contain only one xenon atom per molecule.)
A gas effuses through an opening one-fifth as fast as helium gas effuses through the same opening. (a) Is the gas heavier than helium? (b) What is the molar mass of the gas?

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