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This quiz contains 9 questions from a mix of 1 subtopics.
Based on the worked example in the content, what is the volume of a 2.00 mol sample of ideal gas at 101.3 kPa and 300 K?
300 m3
101.3 m3
2.00 m3
0.049 m3
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What law states that the pressure of a fixed amount of gas at constant temperature is inversely proportional to its volume?
Avogadro's law
Boyle's law
Charles's law
ideal gas law
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According to Charles's Law, if the temperature of a fixed amount of gas at constant pressure doubles, what happens to the volume?
it doubles
it quadruples
it remains constant
it halves
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Which law states that for a given amount of gas at a constant temperature, the pressure (P) is inversely proportional to its volume (V)?
Boyle's law
Newton's law
Charles's law
Avogadro's law
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Given 1.00 mol of an ideal gas at a pressure of 101.3 kPa and a temperature of 273 K, calculate the volume of the gas.
0.022 m³
0.027 m³
0.033 m³
0.025 m³
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Calculate the pressure exerted by 2.50 mol of an ideal gas at a volume of 0.050 m³ and a temperature of 350 K.
172.7 kPa
121.5 kPa
101.3 kPa
145.4 kPa
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A 3.00 mol sample of an ideal gas occupies a volume of 0.100 m³ at 298 K. Find the pressure of the gas.
150.2 kPa
74.3 kPa
205.0 kPa
182.4 kPa
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Using the Boltzmann constant, calculate the pressure exerted by 6.02 x 10²³ particles of a gas in a 0.001 m³ container at 300 K.
3,300 kPa
4,132 kPa
2,580 kPa
2,492 kPa
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If the temperature of 0.040 m³ of an ideal gas containing 0.50 mol is increased to 400 K, what is the new pressure of the gas (assuming the volume remains constant)?
41.6 kPa
67.5 kPa
82.6 kPa
125.0 kPa
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