he table below contains information about samples of four different gases at 273 K. The samples are in four identical rigid containers numbered 1 through 4. Container Gas Pressure Mass of Sample (atm) (g) Не 2.00 ? 2 Ne 2.00 3 ? 2.00 16.0 4 SO, 1.96 64.1 On the basis of the data provided above, the gas in container 3 could be (A) CH, (B) О, (C) Ar (D) CO, Under the conditions given, consider containers 1, 2, and 4 only. The average speed of the gas particles is (A) greatest in container 1 (B) greatest in container 2 (C) greatest in container 4 (D) the same in containers 1, 2, and 4 The best explanation for the lower pressure in container 4 is that SO, molecules (A) have a larger average speed than the other three gases (B) occupy a larger portion of the container volume than the other three gases (C) have stronger intermolecular attractions than the other three gases (D) contain rt bonds, while the other gases contain only o bonds

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The table below contains information about samples of four different gases at 273 K. The samples are in four identical rigid containers numbered 1 through 4. Container Gas Pressure Mass of Sample (atm) (3) ? 1 Не 2.00 2 Ne 2.00 3 2.00 16.0 4 SO, 1.96 64.1 On the basis of the data provided above, the gas in container 3 could be (A) CH4 (B) O2 (C) Ar (D) CO, Under the conditions given, consider containers 1, 2, and 4 only. The average speed of the gas particles is (A) greatest in container 1 (B) greatest in container 2 (C) greatest in container 4 (D) the same in containers 1, 2, and 4 The best explanation for the lower pressure in container 4 is that SO, molecules (A) have a larger average speed than the other three gases (B) occupy a larger portion of the container volume than the other three gases (C) have stronger intermolecular attractions than the other three gases (D) contain a bonds, while the other gases contain only o bonds