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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.
lots of ways 1. cool it down 2. give it more space 3. remove some gas
The boiling point of a liquid is the temperature where the vapor pressure is equal to the atmospheric pressure. Vapor pressure increases with temperature, as you heat the water up the vapor pressure keeps increasing until it matches the atmospheric pressure, then it is boiling. Space isn't quite a perfect vacuum, so the boiling point wouldn't be 0, but it would be very very low.
gases have no shape,volume water has volume but no shape solids have shape and volume gases have the most intermolecular space solids have least inter molecular space <><><><><> Temperature and pressure.
The simplest phase diagrams are pressure-temperature diagrams of a single simple substance, such as water. The axes correspond to the pressure and temperature. The phase diagram shows, in pressure-temperature space, the lines of equilibrium or phase boundaries between the three phases of solid, liquid, and gas.
I'm thinking..get squashed by the pressure in space
Your waist gets expands in space because there is no pressure.
That's because the Universe really is expanding. It started as a "big bang", where all the matter and energy in the Universe was concentrated in a tiny space, smaller than an atom - at a tremendous temperature and pressure. From there it started expanding, and continues expanding to this day.That's because the Universe really is expanding. It started as a "big bang", where all the matter and energy in the Universe was concentrated in a tiny space, smaller than an atom - at a tremendous temperature and pressure. From there it started expanding, and continues expanding to this day.That's because the Universe really is expanding. It started as a "big bang", where all the matter and energy in the Universe was concentrated in a tiny space, smaller than an atom - at a tremendous temperature and pressure. From there it started expanding, and continues expanding to this day.That's because the Universe really is expanding. It started as a "big bang", where all the matter and energy in the Universe was concentrated in a tiny space, smaller than an atom - at a tremendous temperature and pressure. From there it started expanding, and continues expanding to this day.
Basically, a space suit regulates temperature against the freezing temperature of space, provides pressure that keeps you from exploding, and provides oxygen so you don't suffocate.
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.
Tension. A+ There are a number of reasons why matter would take up a smaller amount of space. If the matter is a gas, increased pressure or compression will result in a smaller volume. Gases condensing to a liquid will occupy a smaller amount of space. Temperature can also affect the volume that matter occupies. As temperature decreases, matter will generally reduce in volume and this applies to many gases, solids and liquids. Finally, chemical reactions can result in the products having a smaller volume than the reactants although the reverse is equally true.
Tension. A+ There are a number of reasons why matter would take up a smaller amount of space. If the matter is a gas, increased pressure or compression will result in a smaller volume. Gases condensing to a liquid will occupy a smaller amount of space. Temperature can also affect the volume that matter occupies. As temperature decreases, matter will generally reduce in volume and this applies to many gases, solids and liquids. Finally, chemical reactions can result in the products having a smaller volume than the reactants although the reverse is equally true.
Tension. A+ There are a number of reasons why matter would take up a smaller amount of space. If the matter is a gas, increased pressure or compression will result in a smaller volume. Gases condensing to a liquid will occupy a smaller amount of space. Temperature can also affect the volume that matter occupies. As temperature decreases, matter will generally reduce in volume and this applies to many gases, solids and liquids. Finally, chemical reactions can result in the products having a smaller volume than the reactants although the reverse is equally true.
yes. Gases fill any shape/container that they are put in because the particles are spaced out, where as solids don't move because the particles are close together.
A gas consists of particles having a rather loose molecular structure; the easiest way of saying it is that there's a lot of "empty space" between the molecules. When a gas is compressed (by pressure, or being led into a smaller chamber) these empty spaces are eliminated as the particles get closer to each other.
A gas consists of particles having a rather loose molecular structure; the easiest way of saying it is that there's a lot of "empty space" between the molecules. When a gas is compressed (by pressure, or being led into a smaller chamber) these empty spaces are eliminated as the particles get closer to each other.
gases because of the space between the particles