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From the Tropic of Cancer (23.45 degrees north) to the Tropic of Capricorn (23.45 degrees south).

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15y ago

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What latitude receives the most direct rays of the sun?

The sun's rays are strongest at 0 degrees latitude.


What line of latitude receives the sun's direct rays during the equinoxes?

The equator is the line of latitude that receives the sun's direct rays during the equinoxes. This is because the Earth's axis is tilted neither toward nor away from the sun during the equinoxes, causing the sun's rays to strike the equator perpendicularly.


What is the direct ray of the sun?

The direct rays of the sun are rays from the sun that hit a certain area.


What is the Latitude of the vertical direct rays of the sun?

The latitude where the vertical direct rays of the sun occur is the Tropic of Cancer at approximately 23.5 degrees North. This happens during the summer solstice in the Northern Hemisphere around June 21st each year.


What latitude receives the most direct rays of the sun year around?

There's no place where the angle of the sun's rays doesn't change. But the place thataverages the most direct rays for the longest time in the course of a year is the equator.That's zero latitude.That's probably why it's so warm there.


How does your noontime shadow change throughout the year?

The specifics change depending on the latitude in question, but the noontime shadow will become shorter as the sun's direct rays of incidence approach the latitude in question and longer as the sun's direct rays of incidence recede from that latitude. For example, if you live at 45 degrees North, your shortest shadow will be on the summer solstice, since the sun's direct rays of incidence are at 23.5 degrees North on that day and will be south of that position on all other days. Conversely, if you live at the equator, your shortest shadows will be on the vernal and autumnal equinoxes, since the sun is directly overhead on those days.


What is the nothernmost point of the earth to receive the sun's direct rays?

The sun's most direct rays strike the earth at a 90 degree angle. The most northern latitude at which this occurs (at summer solstice) is the tropic of cancer. The southernmost latitude to receive the sun's vertical light is known as the tropic of capricorn. Midway between these two latitudes is the equator. Can't see "the following"


What latitude receives the most direct rays of sun year around 90 n?

There's no place where the angle of the sun's rays doesn't change. But the place thataverages the most direct rays for the longest time in the course of a year is the equator.That's zero latitude.That's probably why it's so warm there.


How far north and south do the direct rays reach on the earth?

The direct rays of the sun reach their northernmost point at the Tropic of Cancer, located at approximately 23.5 degrees north latitude, during the summer solstice. Conversely, they reach their southernmost point at the Tropic of Capricorn, around 23.5 degrees south latitude, during the winter solstice. Between these two tropics, the sun's rays are direct at noon during the corresponding solstices.


What is the latitude of the tangent rays in the southern hemisphere?

The tangent ray refers to either the northernmost or southernmost hemisphere where the vertical rays refers to direct sun. During the June 21 solstice, the latitude rays in the southern hemisphere would be 66.5 deg S (Antarctic Circle)


What is is the latitude of the tangent Rays in the southern hemisphere?

The tangent ray refers to either the northernmost or southernmost hemisphere where the vertical rays refers to direct sun. During the June 21 solstice, the latitude rays in the southern hemisphere would be 66.5 deg S (Antarctic Circle)


Why does the intensity of UV radiation change with latitude?

The intensity of UV radiation changes with latitude because the angle at which the sun's rays hit the Earth's surface varies depending on the location. Near the equator, the sun's rays are more direct, leading to higher UV radiation levels. As you move towards the poles, the angle of the sun's rays becomes more oblique, resulting in lower UV radiation levels.