As you rise, Oxygen decreases. That's why you need a oxygen mask to provide you with sustainance while in high altitudes. The air molecules are further apart and move much slower, there for making the temperture cold.
A graph showing a negative correlation between elevation above sea level and average annual temperature would best represent the general effect. As altitude increases, temperatures typically decrease in the troposphere due to lower air pressure and the lapse rate. This relationship is commonly observed in mountainous regions.
A graph that shows the general trend between differences in elevation above sea level and the average annual temperature within the troposphere would depict a decrease in temperature with increasing elevation. As you go higher in the troposphere, the temperature generally decreases due to the lapse rate, which results in cooler temperatures at higher elevations.
Elevation affects the temperature, precipitation, and vegetation patterns of a biome. As elevation increases, temperature generally decreases, resulting in differences in plant and animal life. Higher elevations often have unique species adaptations to survive in colder temperatures and harsher conditions.
Marquette is located further north than Muskegon, so it generally experiences colder temperatures due to its proximity to the Arctic Circle and the cooling effect of the surrounding bodies of water. Additionally, Marquette's higher elevation contributes to its cooler average temperatures compared to Muskegon.
temperature, water vapor, and elevation.
The higher the elevation, the colder it gets.
latitude
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.
The average temperature drops by about 3.5F per 1000 feet of elevation gain.
No, elevated blood glucose with have no effect on temperature.
A graph showing a negative correlation between elevation above sea level and average annual temperature would best represent the general effect. As altitude increases, temperatures typically decrease in the troposphere due to lower air pressure and the lapse rate. This relationship is commonly observed in mountainous regions.
The Earth's mean temperature will rise.
As a general rule in the atmosphere, the higher the elevation the lower the temperature. However, certain atmospheric conditions may produce an 'inversion', where temperature increases with elevation.
At 15,000 feet elevation, the air temperature can vary widely depending on multiple factors such as the time of day, season, and location. However, on average, the temperature at this elevation tends to be around 40-50 degrees Fahrenheit colder than at sea level.
Temperature decreases as the elevation increases.
A graph that shows the general trend between differences in elevation above sea level and the average annual temperature within the troposphere would depict a decrease in temperature with increasing elevation. As you go higher in the troposphere, the temperature generally decreases due to the lapse rate, which results in cooler temperatures at higher elevations.
Elevation affects the temperature, precipitation, and vegetation patterns of a biome. As elevation increases, temperature generally decreases, resulting in differences in plant and animal life. Higher elevations often have unique species adaptations to survive in colder temperatures and harsher conditions.