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Test: Gas Laws - ACT MCQ


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10 Questions MCQ Test - Test: Gas Laws

Test: Gas Laws for ACT 2024 is part of ACT preparation. The Test: Gas Laws questions and answers have been prepared according to the ACT exam syllabus.The Test: Gas Laws MCQs are made for ACT 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Gas Laws below.
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Test: Gas Laws - Question 1

At 22 degree Celsius a gas consists of pressure 1.1 bars then what is the temperature when the gas consists a pressure of 2.2 bars?

Detailed Solution for Test: Gas Laws - Question 1

According to Gay-Lussac’s law, at the constant volume, the pressure is directly proportional to the temperature of gas so P1/P2 = T1/T2 that is 1.1 Bar/2.2 bar = 22 degrees Celsius/44 degree Celsius. So the temperature required is 44 degrees Celsius.

Test: Gas Laws - Question 2

An ideal gas of 10 moles occupies _________ volume.

Detailed Solution for Test: Gas Laws - Question 2

As we know that the number of moles is proportional to the volume as per Avogadro’s law and we also know that an ideal gas at STP occupies 22.4 liters of volume. So here 10 moles of gas occupies 224 liters of volume.

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Test: Gas Laws - Question 3

There is a balloon filled with a gas at 26-degree centigrade and has a volume of about 2 liters when the balloon is taken to a place which is at 39-degree centigrade, what would be the volume of the gas that is inside the balloon?

Detailed Solution for Test: Gas Laws - Question 3

As we know that temperature is directly proportional to the volume at constant pressure, 26/39 = 2/ X; so here by equating X equals to 3 liters. Hence required a volume of the balloon at 39 degrees is 3 liters.

Test: Gas Laws - Question 4

There is a ball that will burst if the pressure exceeds 0.12 bars. The pressure of the gas is 1 bar and the volume is 2.5 liters. What can be the maximum volume that the ball can be expanded?

Detailed Solution for Test: Gas Laws - Question 4

According to Boyle’s law at a constant temperature, the pressure is inversely proportional to the temperature so here P1V1 is equaled to P1V2 by equating P1V1 is equaled to 1 x 2.5 = 2.5, so the maximum volume of the ball that can be expanded is 2.5/0.12 =0.3 liters.

Test: Gas Laws - Question 5

What is the shape of the graph that is drawn between pressure and volume?

Detailed Solution for Test: Gas Laws - Question 5

Boyle’s law states that at constant temperature pressure is inversely proportional to the volume of gas so here the graph between the pressure as y-axis volume as x-axis is in the shape of a hyperbola.

Test: Gas Laws - Question 6

When a graph is drawn between the pressure and temperature of the gas it is known as _________

Detailed Solution for Test: Gas Laws - Question 6

When a graph is plotted between pressure on y-axis and temperature on x-axis straight line is formed at a constant volume and this graph is known as isochoric. As we know that gay lussac’s law proposes that at the constant volume the pressure and temperature are directly proportional.

Test: Gas Laws - Question 7

By observing the below-given figure which of the options do you think is the correct one?

Detailed Solution for Test: Gas Laws - Question 7

By using Boyle’s law, draw a parallel line to volume axis, so as to maintain a constant temperature. Draw perpendicular lines to the point of intersection of pressure lines to constant temperature and volume axis. Now see to the lower the volume, higher the pressure. So P1 is greater than P2.

Test: Gas Laws - Question 8

How much does the volume of the gas increase if we increase the temperature by 1 Degree?

Detailed Solution for Test: Gas Laws - Question 8

According to Charles law, the volume of the fixed gas at constant pressure is directly proportional to the Absolute Temperature of the gas. So we thereby represent this as Vt = V0(1 + t/273) where Vt is the volume of the gas at temperature t and V0 is the volume of the gas at 0 degrees Celsius that is absolute temperature.

Test: Gas Laws - Question 9

What is the name of the graph that is drawn, when the temperature is kept constant?

Detailed Solution for Test: Gas Laws - Question 9

The graphs with constant temperature plot are isotherms. For example, the graph that is used to detect the Boyle’s law, that is between pressure and volume is an isotherm as the temperature is constant in this graph.

Test: Gas Laws - Question 10

At a constant temperature, the pressure of a gas is given as one atmospheric pressure and 5 liters. When the atmospheric pressure is increased to 2 atm, then what is the volume of the gas?

Detailed Solution for Test: Gas Laws - Question 10

As we know that, Boyle’s law states at a constant temperature, the pressure of a gas is inversely proportional to its volume so P1V1 equals to P2V2 by substituting P1 as one atmospheric pressure V1 as 5 liters P1 as to atmospheric pressure we get V2 as 5/2 that is 2.5 liters.

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