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More. That is the only answer that is possible with the information provided. The ideal gas law states: PV=nRT. Solving for P gives: P=(nRT)/V. So you can see that if temperature and amount of gas are constant (R is always a constant), decreasing V will increase pressure and increasing V will decrease pressure. An easier formula derived from this one is P1V1=P2V2.
What else can I help you with?
What happens to the gas volume at a given pressure?
The gas takes on the size and shape of the container it's in. So if you make the volume of the container smaller (compress it) the volume of the gas is smaller as well. However, this comes at a higher pressure exerted, so there is no spontaneous mass creation.Well, by definition, compress means "to make smaller; to press or squeeze together; or to make something occupy a smaller space or volume." Therefore, the very word "compress" implies a decrease in volume. So if you wanted to know what happens when you compress a gas, you are squeezing it into a smaller space, or decreasing the volume.If you were to let the gas maintain a constant temperature as you compress it, then pressure would increase. If you were to let the gas maintain a constant pressure, then temperature would decrease.If you were to rephrase your question to "what happens to the volume of gas if put under pressure," then the gas' volume would decrease. For the temperature to remain constant and the pressure to increase, a gas must decrease in volume to occupy a smaller area.
What is the ability of gases to occupy smaller spaces when the particles are subjected to a higher pressure?
The ability of gases to occupy smaller spaces under higher pressure is due to the compressibility of gas particles. When pressure is applied, the gas particles are forced closer together, reducing the volume they occupy. This behavior is described by Boyle's Law, which states that the volume of a gas is inversely proportional to its pressure, assuming constant temperature. As a result, increasing pressure leads to a decrease in volume, allowing gases to fit into smaller spaces.
Why does it make sense that if you squeeze the air in a sealed syringe that the pressure will go up?
If you squash something in a sealed container then you are reducing the volume available for it to fit into and the result is that it pushes back (the pressure goes up). It is like forcing air into a bicycle tyre with a pump.
What change in volume would cause the pressure of an enclosed bag to be reduced to one quarter of its original value?
Assuming it's a bag of gas at constant temperature, four times the volume by the relationship: P1V1 = P2V2
Why does temperature affect the air pressure?
Air temperature and air pressure are inversely proportional. As temperature increases, air pressure decreases. This is best demonstrated in an enclosed vessel.
What is the Pressure exerted by water freezing in an enclosed vessel?
When water freezes in an enclosed vessel, it expands and exerts pressure on the vessel walls. This pressure depends on factors such as the volume of water, rate of freezing, and strength of the vessel. Generally, this can lead to the vessel cracking or bursting if the pressure becomes too high.
What happens when a gas is stretched?
You cannot stretch a gas. If you extend the volume in which some gas is enclosed you are working against the difference in between the external atmospheric pressure and the internal pressure of the gas. As you increase the enclosed volume, the pressure inside there falls and you have to work harder.
How does pressure exerted on a gas affect its volume?
The volume decreases (smaller,less)
What happens to an enclosed gas if the temperature is increased?
For an enclosed gas (contained in a fixed volume), the pressure increases as temperature increases.Another way to picture this is that at higher temperatures, the gas molecules colliding with the walls of the container are more energetic, so the force exerted (pressure) is greater.
What causes the pressure that a gas exerts on the wall of its container?
Kinetic theory explains the pressure that a gas exerts on the walls of its container. This describes elastic collisions between the atoms or molecules in the gas with the container's walls, which collectively exert a measureable pressure.
How air exerts pressure?
Here we consider a system as an open system .Now air forms the remaining system lwhich occupies remaining volume .;the considered system being small with respect to the volume enclosed by air ,there exists force exerted by air on this system in order to cover up the entire volume.----this is nothing but pressure
What is stated by boyles law?
Boyle's Law states that the pressure of a gas is inversely proportional to its volume, when the temperature is kept constant. This means that as the volume of a gas decreases, the pressure it exerts increases, and vice versa. This relationship is described by the equation P1V1 = P2V2, where P represents pressure and V represents volume.
Why does the ship floats while a coin sinks?
because a ship has big volume and a coin has small volume hence the smaller the area the bigger the pressure,the smaller the area the big the volume
Why does pressure of gases when you put it in a smaller container the pressure rises?
When you place a gas in a smaller container, the volume available for the gas molecules to move decreases. This causes the gas molecules to collide more frequently with the container walls, resulting in an increase in pressure. According to Boyle's law, pressure and volume are inversely proportional, so as volume decreases, pressure increases assuming constant temperature.
Is the greater the density of the air the less pressure it exerts?
They stay the same :)
What happens to the air pressure inside a balloon when the balloon is squeezed to half it volume at constant temperature?
The air pressure inside the balloon will increase when it is squeezed to half its volume at constant temperature. This is because the volume of the balloon decreases, leading to the air molecules being more confined in a smaller space, resulting in higher pressure.
What law is demonstrated when gas volume in a enclosed space increases as the barometric pressure decreases?
Boyle's Law, named after Robert Boyle, explains this phenomenon. This law states that the product of volume and pressure remains constant under constant temperature. Thus, a decrease in pressure will yield an increase in volume to compensate.
