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This Concept Map, created with IHMC CmapTools, has information related to: Gas Laws, Temperature decrease is a result of slower moving molecules, so that the container must shrink to maintain the same pressure, Boyle's Law where the equation is k=PV, Volume decrease is a result of less space for the molecules so that there are more collisions against the container sides, Pressure when increased is a result of having more moleucles collide against the container, Charles' Law because Pressure does not change, Temperature increase is a result of faster moving molecules, so that the container but enlarge to maintain the same pressure, How are pressure, volume and temperature described by the gas laws for a rigid and flexible container? for a flexible container, flexible container we used the Charles' Law, flexible container we used the Boyle's Law, rigid container we use the Gay-Lussac's Law, Volume increase is a result of faster moving molecules, so that the container but enlarge to maintain the same pressure, Volume increase is a result of more space for the molecules so that there are less collisions against the container sides, Boyle's Law which change, change in Temperature, How are pressure, volume and temperature described by the gas laws for a rigid and flexible container? for a rigid container, Combined Gas Law where the equation is k=PV/T, Charles' Law where the equation is k=V/T, Pressure increase is a result of less space for the molecules so that there are more collisions against the container sides, Pressure when decreased is a result of having less molecules collide against the container, Combined Gas Law used when Pressure, volume, and temperature changes.