Atmospheric press is simply the weight of the waiting pushing under on you from above. Together you boost in elevation, over there is much less air over you therefore the press decreases. As the push decreases, air molecules spread out more (i.e. Air expands) and the temperature decreases. If the humidity is at 100 percent (because it’s snowing), the temperature decreases an ext slowly v height.

You are watching: How much does the temperature drop for every 1000 feet of elevation

Figuring out temperature without sensors:

There is a simple method to estimate the temperatures at various elevations roughly you if you recognize the temperature at the key you room standing at. Before we get into the numbers, it’s crucial to remember that temperature have the right to vary for a number of different reasons: shade, sun, surrounding buildings (or absence of them) and inversions (colder air sinking into valleys because it’s heavier than warm air) can all affect the temperature.

Those caveats aside here’s the quick and easy means to estimate temperatures at every elevation. If there"s no snow/rain falling from the sky, then the temperature reduce by about 5.4°F for every 1,000 feet increase you go in key & diminish the very same for every 1,000 feet you walk down. However, if it is snowing/raining, the temperature decreases/increases by about 3.3°F because that every 1,000 feet up/down you walk in elevation. This can additionally be described by forecasters as the "lapse rate".

Here’s a chart to visualize the temperature decrease with elevation:

Using this technique in practice:

Let’s placed this theory to the work. Say you are standing in the parking lot of at your favorite ski resort and also it’s snowing. If the temperature at the basic is 30°F and the summit is roughly 3,000 feet higher, then you could estimate the temperature in ~ the top would be roughly 20°F (3,000 ft. Elevation adjust at 3.3°F every 1,000 feet equals about a 10°F temperature decrease).

Now, you’re at the optimal of the hill on a clear day with temperatures roughly 30°F in ~ the top. It’s afternoon and also while it was cold as soon as you started the day at the base, you’re reasoning it would be funny to head to the bottom to reap a beer ~ above the deck/patio. The temperature at the base/village need to be roughly 46°F (3,000 ft. Elevation change at 5.4°F every 1,000 feet equals about a 16°F temperature increase). This has also been scientifically proven to be the perfect temperature to enjoy a beer on the apres deck.