The equator receive heat directly from the sun. As you can see, the earth is in a spherical shape. Equator is the line that cuts the earth into half. The sun's rays come and fall directly on the equator making it's climate hot and wet. The more the sun's rays, the more the rain. The sun's rays reach polar regions a bit slower, making the region cold. A polar region has 6 months of day and 6 months if night.
Place near the equator are hotter than places near the poles. This is due mainly to the creature of the earth and the angle of the sun. At the equator the sun is often overhead. It shines straight down and its heat is concentrated on small area which get very hot
Because the sun is closer to the equator, than the Tropic of Cancer and Tropic of Capricorn
Evidence: Professorial Geography Teacher, currently running my own Geography A-Level Course (like a school)
It's because the sun rays are mainly shined in that area. Not because the sun is closer to this area, which is wrong the sun isn't closer to the equator. The reason that the equator is warmer is that it receiver the highest intensity of sunlight.
Read more: Why_are_places_along_the_equator_warmer_than_places_not_near_the_equator
Because, at the equator, the ground being heated is normal to the direction of the heat source. At the poles themselves the same area of ground would be parallel to the heat source direction.
What are places closer to the equator warmer than places farther from to equator
The regions closer to the equator are hotter and more moist than those further from the equator. They receive more solar energy than the poles.
Days are longer.
Climates closer to the equator are warmer, and those closer to the poles (either north or south) are colder.
The earth is not a perfect sphere. The spin of the earth causes it to buldge out at the equator, which means the equator is further from the center of the earth then the poles are. The further an object is from the center of mass of another object, the less effect the gravity of those objects will have on each other. So at the equator, an object is being effected less by the gravity of the earth then it is at the poles.
the sun rays falls directly to the equator, so that the water on the equator is warm.and because of the sun rays do not reach properly on the poles the water is very much cool there even it is in icy form. So as the water from the equator goes towards the poles to fill the gape water comes rushing from the poles. these creates the ocean currents. the hot water which goes to the poles, due to its hotness creates rain fall in those regions from where it passes. and the cold water makes the weather cold of those areas from where it passes. this is one of the most factors.
The regions closer to the equator are hotter and more moist than those further from the equator. They receive more solar energy than the poles.
Days are longer.
Climates closer to the equator are warmer, and those closer to the poles (either north or south) are colder.
Arabian Sea is situated near equator. The places that are near equator those are hot and warm. Arabian Sea is the best example. The places that are far from equator those are cold and frozen. Arctic ocean (North) and Antarctic ocean (South) are its examples.Arabian Sea is situated near equator. The places that are near equator those are hot and warm. Arabian Sea is the best example. The places and Antarctic ocean (South) are its examples
Arabian Sea is situated near equator. The places that are near equator those are hot and warm. Arabian Sea is the best example. The places that are far from equator those are cold and frozen. Arctic ocean (North) and Antarctic ocean (South) are its examples.Arabian Sea is situated near equator. The places that are near equator those are hot and warm. Arabian Sea is the best example. The places and Antarctic ocean (South) are its examples
The earth is not a perfect sphere. The spin of the earth causes it to buldge out at the equator, which means the equator is further from the center of the earth then the poles are. The further an object is from the center of mass of another object, the less effect the gravity of those objects will have on each other. So at the equator, an object is being effected less by the gravity of the earth then it is at the poles.
The areas of the world where locusts do not live in are those closest to the poles. Locusts are common to places near the equator, where the temperatures are hot and humid. The colder the country is, the less likely it will be to find locusts.
The areas of the world where locusts do not live in are those closest to the poles. Locusts are common to places near the equator, where the temperatures are hot and humid. The colder the country is, the less likely it will be to find locusts.
Places that are close to the equator do not experience much change in the amount of daylight and darkness there is throughout the year. So while the solstices are happening in those parts of the world, they do not experience any major differences. The further you get from the equator and the closer you get to the poles, the more noticeable the effect of a solstice is.
the sun rays falls directly to the equator, so that the water on the equator is warm.and because of the sun rays do not reach properly on the poles the water is very much cool there even it is in icy form. So as the water from the equator goes towards the poles to fill the gape water comes rushing from the poles. these creates the ocean currents. the hot water which goes to the poles, due to its hotness creates rain fall in those regions from where it passes. and the cold water makes the weather cold of those areas from where it passes. this is one of the most factors.
No, tundras are found in high latitudes near the poles, not near the equator. The cold temperatures and short growing season in tundras create a unique ecosystem adapted to those conditions.
At the Equator temperatures are much hotter except at high altitudes where air is cooled by the work done in lifting it over mountains, and at the poles they are much much colder. Also, the annual range of temperature is negligible at the equator and often very high near the poles because day length is constant at the equator and ranges from continuous daylight to astronomical polar night at the poles. The most extreme annual ranges of temperature are not at the poles where maritime influences are strong (Antarctica being very strongly cooled in summer by the Antarctic Drift) but in the hypercontinental regions of inland Siberia and Manchuria where the differential heating of Eurasia and the Pacific Ocean causes a wind reversal to warm summers and chill winters. The temperatures are hotter at the Equator because the sun is more direct than that of the poles.