Snow settles on colder upper slopes You might think that the higher up you are, the nearer the sun you are—which means that the air ought to be slightly warmer. However, being a few hundred metres closer to the sun makes no difference, given that the sun’s rays have already had to travel 150 million kilometres (93 million miles) before reaching Earth. Temperatures are, in any case, normally lower at high altitudes, so what is causing them to be so? It is to do with atmospheric pressure: the higher up you are, the lower the pressure. This is because the column of air above you—which goes all the way up to the top of the atmosphere—is shorter as you go higher and higher. At sea level, the pressure is around 1013 millibars (14.7 pounds per square inch). At 1500 metres (5000 feet), it averages around 840 millibars (12.2 pounds per square inch).
Decreasing air temperature at higher altitudes influences the length of the growing season at different heights. Above a certain...Read More >>Decreasing air temperature at higher altitudes influences the length of the growing season at different heights. Above a certain altitude, very few plants can grow. Lower down, alpine meadows and shrubs are found. Lower still, below the tree line, there are coniferous forests, while on the lowest slopes deciduous woodland thrives.
Pressure and temperature
For gases such as air, which is a mixture of mostly nitrogen and oxygen, pressure has a marked effect on their temperature. When the air molecules are subjected to less pressure—at higher altitudes—they spread out. As a result, they don't collide with each other as much as they do where the pressure is greater—at low altitudes. Fewer collisions between air molecules mean less energy being given off, so the air is cooler.
Wind chill can have a far bigger effect on the air temperature than the lapse rate. It is typically windier at higher altitudes.
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