yes because Humidity depends on water vaporization and condensation, which, in turn, mainly depends on temperature. Therefore, when applying more pressure to a gas saturated with water, all components will initially decrease in volume approximately according to the ideal gas law. However, some of the water will condense until returning to almost the same humidity as before, giving the resulting total volume deviating from what the ideal gas law predicted. Conversely, decreasing temperature would also make some water condense, again making the final volume deviate from predicted by the ideal gas law. Therefore, gas volume may alternatively be expressed as the dry volume, excluding the humidity content. This fraction more accurately follows the ideal gas law. On the contrary the saturated volume is the volume a gas mixture would have if humidity was added to it until saturation (or 100% relative humidity).
Humid air is less dense than dry air because a molecule of water (M ≈ 18 u ) is less massive than either a molecule of nitrogen (M ≈ 28) or a molecule of oxygen (M ≈ 32). About 78% of the molecules in dry air are nitrogen (N2). Another 21% of the molecules in dry air are oxygen (O2). The final 1% of dry air is a mixture of other gases.
For any gas, at a given temperature and pressure, the number of molecules present in a particular volume is constant - see ideal gas law. So when water molecules (vapor) are introduced into that volume of dry air, the number of air molecules in the volume must decrease by the same number, if the temperature and pressure remain constant. (The addition of water molecules, or any other molecules, to a gas, without removal of an equal number of other molecules, will necessarily require a change in temperature, pressure, or total volume; that is, a change in at least one of these three parameters. If temperature and pressure remain constant, the volume increases, and the dry air molecules that were displaced will initially move out into the additional volume, after which the mixture will eventually become uniform through diffusion.) Hence the mass per unit volume of the gas-its density-decreases. Isaac Newton discovered this phenomenon and wrote about it in his book Opticks.[14]
The reason warm air takes up more room than colder air is because the colder air is packed closer together. If you think of the gas molecules as little balls in a large box, the faster the little balls are moving the warmer the gas it. If the balls don't move much (cold)they can be put into a smaller box much more easily than if you had the same number of balls that were traveling really fast (hot)
Because Water vapor is why the air is warm
More specifically the Evaporation/precipitation cycle puts heat into the air via water vapor carrying heat from the surface of the earth into the air
If the Surface is hotter then more evaporation happens and in turn more heat gets into the air with the associated humidity
Warm air have more pressure than cold air because the kinetic energy of molecules in warm air is greater than the kinetic energy of molecules of cold air.
because warm air molecules move around more than cold air molecules there is your answer i hope it was what your looking for not jk peace out
In cold air the molecules are closer together, meaning that there are more molecules in a given amount of space, and therfore a given volume of air weighs more.
Because it's more dense
Have a greater volume.
The answer would depend on the altitude (or depth) of the air you're measuring. Because air can be compressed, the weight of the atmosphere (or atmosphere plus water if it is submerged) on top of the air you're measuring determines the volume, or space, the air takes up. The more the weight, the smaller the space the compressed air would take up. Temperature is also a factor as air becomes denser and compresses (the molecules become more tightly packed) as it gets colder.
When energy (in this case, heat) is added, it excites the molecules and causes them to begin to move more. This extra movement causes them to repel one another more, causing the substance to take up more space.
A liquid or solid will not take up a larger space than the space it occupies; even if more space is freely available.On the other hand, both a liquid and a solid are incompressible, for most practical purposes; that is, you can't compress it to use less space than the space it uses, either.A liquid or solid will not take up a larger space than the space it occupies; even if more space is freely available.On the other hand, both a liquid and a solid are incompressible, for most practical purposes; that is, you can't compress it to use less space than the space it uses, either.A liquid or solid will not take up a larger space than the space it occupies; even if more space is freely available.On the other hand, both a liquid and a solid are incompressible, for most practical purposes; that is, you can't compress it to use less space than the space it uses, either.A liquid or solid will not take up a larger space than the space it occupies; even if more space is freely available.On the other hand, both a liquid and a solid are incompressible, for most practical purposes; that is, you can't compress it to use less space than the space it uses, either.
No. Usually, when warm air moves against a stationarymass of cold air, the warm air will gently move over the colder air and a light, long lasting rain shower will take place. If a moving mass of cold air violently shoves warmer air upward, then the rains are usually more intense.
It would be a lot colder and take up more space than Greenland currently does already.
5W-30 in colder climates, 10W-30 in warmer climates.
Samoyeds have thick, double coats of fur that are designed to keep them warm in cold weather. They do best in colder climates and can easily overheat in warmer climates.
Once the inside is more liquid-like, the upper substance comes down because it's relatively colder, and the warmer substance moves up. that cycle keeps going.
We feel colder in space although we are reaching closer to the Sun because there is no air and no dust particles present in the space. So there is nothing to absorb the heat from the Sun and radiation process can't take place.
5
Depends on the water temperature in your tank, if your water is warmer then they will have them sooner, but if your water is colder it'll take a little while longer. It is usually anywhere from 26-32 days.
The fur thickness probably would eventually change over a period of time, but then again it may not, because these animals that have moved from a colder climate to a more warmer one take time to acclimatize to their new environment.
few says at least depending on the temperature. Warmer temps would take about this much time to be safe. Colder temps par the ability of the clear to dry. Usually in colder temperatures you want to use more hardener when spraying to speed this process up.
Because there is more warmer air that will rise, and cooler air will move in to take its place, creating wind.
yes
why does steam take up more space than liquid water