أقل
On a map of average annual temperature why are the lower latitudes so much warmer than the higher latitudes?
Higher latitudes receive less solar radiation because sunlight hits the Earth at a more oblique angle, spreading the same amount of energy over a larger surface area. This results in lower intensity of solar radiation reaching these regions compared to lower latitudes where sunlight strikes the Earth more directly.
Typically, normally, and on the average over a large area and a long period of time,places in lower latitudes are warmer than those in higher latitudes.An easy way to remember this might be to remind yourself that . . .-- The lowest possible latitude is zero. That's on the equator.-- The highest possible latitude is 90 degrees. That's two places: the north and south poles.
Yes, warm currents can cause isotherms to be deflected towards the south pole by transferring heat energy from lower latitudes to higher latitudes. This can result in a warmer climate in regions that would otherwise be cooler due to their higher latitude.
Elevation and latitude both affect temperature because they can impact the amount of sunlight received. Higher elevations generally have cooler temperatures due to decreased air pressure and thinner atmosphere. Areas at higher latitudes receive less direct sunlight, leading to cooler temperatures compared to lower latitudes.
On a map of average annual temperature why are the lower latitudes so much warmer than the higher latitudes?
Higher latitudes receive less solar radiation because sunlight hits the Earth at a more oblique angle, spreading the same amount of energy over a larger surface area. This results in lower intensity of solar radiation reaching these regions compared to lower latitudes where sunlight strikes the Earth more directly.
Higher latitudes receive less solar radiation due to the angle at which the sunlight strikes the Earth's surface. At higher latitudes, the sun's rays hit the Earth at a lower angle, spreading the same amount of energy over a larger area. This results in lower intensity of sunlight and less solar radiation reaching those areas.
Autumn is another name for fall, but in general use, it is more a time of the year defined by the weather and its effect on trees and plants than a season, and the weather depends upon the geographic location so that autumn comes earlier in the higher latitudes than in the lower latitudes.
Insulation decreases with increasing latitude due to the angle at which sunlight reaches the Earth's surface. At higher latitudes, the sun's rays are more spread out and travel through more atmosphere before reaching the surface, leading to lower insulation levels. This results in cooler temperatures at higher latitudes compared to lower latitudes.
The latitude that experiences the largest change in day length throughout the year (typically higher latitudes) would exhibit the greatest decrease in average daily insolation on a graph. This is due to the larger variation in the number of daylight hours between seasons at higher latitudes compared to lower latitudes.
Typically, normally, and on the average over a large area and a long period of time,places in lower latitudes are warmer than those in higher latitudes.An easy way to remember this might be to remind yourself that . . .-- The lowest possible latitude is zero. That's on the equator.-- The highest possible latitude is 90 degrees. That's two places: the north and south poles.
Sunspots are most frequent about 30 degrees north or south of the equator. They tend to appear there around the maximum of the 11 year sunspot cycle. Earlier in the cycle they areseen at higher latitudes and later they are at lower latitudes.
Different latitudes on Earth receive different amounts of solar energy because of the Earth's spherical shape and its tilted axis. The angle at which sunlight strikes the Earth varies, with higher latitudes receiving sunlight at a more oblique angle, spreading the energy over a larger surface area. This results in less solar energy reaching higher latitudes compared to lower latitudes, which receive sunlight more directly.
Yes, warm currents can cause isotherms to be deflected towards the south pole by transferring heat energy from lower latitudes to higher latitudes. This can result in a warmer climate in regions that would otherwise be cooler due to their higher latitude.
Because the waters are heated throughout the whole year and not just in the summer as at higher latitudes.
Because the waters are heated throughout the whole year and not just in the summer as at higher latitudes.