1. What is the relationship between elevation and average surface temperature?
2. What is the generalized relationship between latitude and average surface temperature..(I think it's that the higher the latitude, the colder the surface temperature)?
3. What is the relationship between distance to a large body of water and temperature range?
1, doesn't it get cool on mountain tops?
2. correct.
3. Lots of folks like to got to the beach in the Summer. Why?
1. the higher the elevation, the colder.
2. youre answer is correct
3. the shorter to a large body of water, the smaller the temperature range.
i like to type bad grammar. LOL : }
i don't care
1. The relationship between elevation and average surface temperature is known as the lapse rate. As you increase in elevation, the air pressure decreases, causing the temperature to drop. On average, the temperature decreases by about 3.5°F per 1,000 feet of elevation gain. This means that higher elevations tend to have lower average surface temperatures compared to lower elevations.
To understand this relationship, one can look at temperature data recorded at different elevations, such as weather station records or climate data. By comparing the temperature measurements at different elevations, you can observe the decrease in temperature with increasing elevation.
2. Your understanding is correct. The generalized relationship between latitude and average surface temperature is known as the latitudinal temperature gradient. Generally, as you move away from the equator towards the poles, the average surface temperature decreases. This is mainly due to the angle at which sunlight reaches the Earth's surface.
To understand this relationship, one can analyze global temperature data or climate records. By examining temperature patterns at different latitudes, it becomes evident that there is a decrease in average surface temperature as you move towards higher latitudes.
3. The relationship between distance to a large body of water and temperature range is commonly referred to as the maritime effect or coastal influence. Generally, areas closer to large bodies of water, such as oceans or lakes, tend to have smaller temperature ranges compared to inland areas.
The presence of water bodies moderates the temperature by absorbing heat during the day and releasing it during the night. This results in cooler summers and milder winters for coastal regions. Inland areas, on the other hand, experience more significant temperature fluctuations due to the absence of this moderating effect.
To understand this relationship, one can compare temperature data from coastal areas and inland areas located at similar latitudes. By analyzing temperature variations between these regions, it becomes clear that proximity to large bodies of water influences temperature range.