Density at 12,000 feet (or 3658 m), is 0.05302 lbm/ft^3 (or 0.8491 kg/m^3).
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∙ 13y agohi! kinda a big science nerd here. As the altitude increases the ground temp. gets colder . take mount Everest for example the higher up you get the closer you are to the sky where precipitation takes place there for you lack oxygen and heat.
The density of air decreases as the bubble rises, since the bubble can increase in size as it rises. A scuba diver needs to release air from her lungs when rising from a depth for this reason. The density of air inside a Japanese fishing net float (a hollow glass sphere) would not change substantially. Changing its temperature would not change the density, only the pressure, since the same number of molecules are involved.
Rarefaction is the diminution in the density of something, especially air or a gas.
Similarities' Both are matter. Differences: Density
Desert air usually has a very low moisture content. Air above a lake would be much more humid.
penis2
The density of air is greater at ground level because of the weight of the air above pressing down. As you go higher in altitude, there is less air above exerting pressure, leading to lower air density at the top of a mountain.
As you descend further below sea level in dry land, the density of air increases due to the weight of the air above compressing the air at lower altitudes. This leads to higher pressure and more molecules of air being packed into a given volume, increasing the air density.
The air density at 18,000 feet above sea level is approximately 0.65 kg/m^3. At higher altitudes, the air density decreases due to the lower pressure and lower temperature.
The air has the weight of all the air above it pressing down on it. this compresses the air increasing its density. So air at sea level is more dense than air on the top of the mountain, since the air on the mountain top has less air above it pressing down.
At ground level its density is less than the air around it, so it rises, as the altitude increases air density decreases, when the density of the balloon and the air are equal it stops rising.
The air density in any given place depends on its height above sea level and also varies from day to day due to variations in weather patterns.
At 18,000 feet above sea level, the atmospheric pressure is approximately 50% of what it is at sea level. This is because air density decreases with altitude, resulting in lower pressure levels.
The force of air is determined by the atmospheric pressure, which decreases with increasing altitude above sea level due to the decreasing density of air molecules. Additionally, temperature affects air density, with warmer air being less dense than cooler air. Overall, the combination of temperature and altitude influences the force of air pressure exerted at a specific location.
As you ascend higher above sea level, the air pressure and density decrease. With a decrease in air pressure, the air molecules are less tightly packed, making it harder for them to retain heat. This leads to a temperature drop as you go higher above sea level.
The density of air decreases as altitude increases. At higher altitudes, the air molecules are more spread out, resulting in lower air density compared to sea level.
Air pressure is greatest at ground level because the weight of the air above compresses the air molecules closer together, creating higher pressure. As altitude increases, there is less air above, resulting in lower air pressure.