For each system listed in the first column of the table below, decide (if possible) whether the change described in the second column will increase the entropy s of the system, decrease s, or leave s unchanged. If you don't have enough information to decide, check the "not enough information" button in the last column. System Change AS O As < 0 The helium is cooled from 42.0 °C to O AS = 0 -8.0°C and is also compressed from A few moles of helium (He) gas. a volume of 12.0 L to a volume of O As> 0 3.0 L. not enough information O AS < 0 O AS = 0 The acetone is cooled from 73.0 °C to -18.0 °C. A few grams of liquid acetone ((CH3),CO). O AS > 0 not enough information O As< 0 The carbon dioxide expands from a volume of 7.0 L to a volume of O AS = 0 A few moles of carbon dioxide (CO2) gas. 11.0 L while the temperature is held O AS > 0 constant at 55.0 °C. not enough information O O O O OO

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For each system listed in the first column of the table below, decide (if possible) whether the change described in the second column will increase the entropy s of the system, decrease s, or leave s unchanged. If you don't have enough information to decide, check the "not enough information" button in the last column. olo System Change AS O AS < 0 The helium is cooled from 42.0 °C to O As = 0 -8.0 °C and is also compressed from A few moles of helium (He) gas. a volume of 12.0 L to a volume of O As > 0 3.0 L. not enough information O As< 0 AS = 0 The acetone is cooled from 73.0 °C A few grams of liquid acetone ((CH3),CO). to -18.0 °C. O AS > 0 not enough information O AS< 0 The carbon dioxide expands from a volume of 7.0 L to a volume of 11.0 L while the temperature is held O AS = 0 A few moles of carbon dioxide (CO,) gas. O As > 0 constant at 55.0 °C. not enough information