WebGases behave ideally when both of the following are true: (1) The pressure exerted by the gas particles is small compared to the space between them. (1) The volume of the gas particles is large compared to the space between them. (1) The volume of the gas particles is Explain why in light of kinetic molecular theory. Select all that apply. WebUnformatted text preview: Kinetic Molecular Theory of Gases Properties of Gases Easy to _compress container Expand to fill Lowe dencity or .Do not have definite volume shape …
3 Kinetic Theory of Gases PDF Gases Thermal …
WebThe kinetic-molecular theory of gases is a theory that explains the behavior of gases in terms of the motion and interactions of their constituent molecules. It states that all gases are composed of tiny, discrete particles that are in constant, random motion. These particles collide with each other and with the walls of the container ... WebThe Kinetic-Molecular Theory Explains the Behavior of Gases, Part I. Recalling that gas pressure is exerted by rapidly moving gas molecules and depends directly on the … hunterdon central television live
Avogadro’s Law - Statement, Formula, Derivation, …
WebThe kinetic molecular theory can be used to explain the results Graham obtained when he studied the diffusion and effusion of gases. The key to this explanation is the last … WebThe kinetic molecular theory (KMT) can be used to explain the macroscopic behavior of ideal gases. In this video, we'll see how the KMT accounts for the properties of gases as described by the various gas laws (Boyle's law, Gay-Lussac's law, Charles's law, Avogadro's law, and Dalton's law of partial pressures). Created by Sal Khan. Sort by: WebHow does kinetic molecular theory explain gas pressure inside a balloon? Select the correct answer below: Question #2 options: Gas particles are large and only a few fit inside a balloon, inflating the walls. The atmospheric pressure is greater than the pressure of the gas inside the balloon, so the balloon expands maruchan ramen spicy chicken