3.5
On average, the temperature drops approximately 3.5°F for every 1,000 feet increase in elevation. This phenomenon is known as the environmental lapse rate and is a key factor in understanding how temperature changes with altitude in the atmosphere.
Botswana has the most land below 1000 feet in Southern Africa.
Elevation can affect weather and climate by influencing temperature, precipitation, and air pressure. As elevation increases, the air becomes less dense, leading to lower temperatures and decreased humidity. This can result in cooler climates and more precipitation in higher elevation areas. Additionally, changes in elevation can also impact the formation of clouds and weather patterns due to differences in air pressure and flow.
Elevation is the vertical distance above sea level of any area or landform. So the elevation of a tropical rainforest would depend on which rainforest you are speaking of and where it is in the world. On the tropical island of Hainan in the South China Sea, for instance, there are two ecoregions, both of which have tropical rainforests. One is more coastal, and therefore has a lower elevation. The other is an interior mountainous region with an elevation of 500 to 1000 meters. Other areas in the world contain tropical and subtropical rainforests that also vary greatly in elevation.
Ok so each line is equal to 200 feet. So let's pretend you're starting at 0 how many lines would you need to get to 1,000? Line 1 =200 then Line 2=400 then line 3=600 then line 4=800 and finally line 5=1,000 _____1,000 feet / _____800feet / _____600feet / _____400feet / _____200feet / So how many lines did it take?
6.4˚C per 1000 m elevation gain or 3.5˚F for 1000 ft elevation gain
A very general rule of thumb used by pilots is there is roughly a 3 degree drop in temp for every 1000 feet of elevation.
1000
The temperature typically decreases by about 3.5F per 1000 feet increase in elevation.
The average temperature drops by about 3.5F per 1000 feet of elevation gain.
On average, the temperature drops approximately 3.5°F for every 1,000 feet increase in elevation. This phenomenon is known as the environmental lapse rate and is a key factor in understanding how temperature changes with altitude in the atmosphere.
Approximately 27% of Earth's land mass is above 1000 ft in elevation.
1000
Approx. 1000 ft
1000
1000 metres = 1 kilometre then 2400 m = 2400/1000 = 2.4 km. Simple!
As elevation increases, the temperature typically decreases. This is because air pressure decreases with altitude, causing the air to expand and cool. The rate of temperature decrease with elevation is called the lapse rate.