Equator
Sun rays fall vertically on the Tropic of Cancer and the Tropic of Capricorn twice a year during the summer solstice and winter solstice, respectively. This is when these locations experience either the longest or shortest day of the year.
This question does not make sense. The sun's gravitational pull has an enormous effect on the earth. The earth is 5,973,600,000,000,000,000,000,000 kg and is travelling 107,279 km/h, and the sun's gravitational pull causes it to continually change direction instead of heading off into space in a straight line.
In the summer, the sun is higher in the sky, casting shadows that are shorter. In the winter, the sun is lower in the sky, creating longer shadows. This difference in the angle of the sun's rays causes the length of shadows to vary between the seasons.
The belief that the Earth was flat was disproved by new exploration that demonstrated the planet is round. Similarly, the idea that the Sun revolves around the Earth was rejected in favor of the heliocentric model proposed by Copernicus, which states the Earth and other planets revolve around the Sun.
Seasons are caused by the tilt of the Earth's axis as it orbits the Sun. This tilt creates variations in the amount of sunlight different regions receive over the course of a year, resulting in changes in temperature and weather patterns. As the Earth moves around the Sun, different hemispheres experience different seasons at different times.
Pyramids were shaped as a pyramid because they were designed to symbolize the rays of the sun and their slopes facilitated the ascension of the pharaoh's soul to the heavens after death. Additionally, the geometric design provided stability to support the massive stone blocks in the structure.
Japan , called as " rising of morning SUN"
I think thats the normal way the sun falls to earth [AT RIGHT ANGLES
Consider earth revolving sun. Moon revolve around earth. During that revolution sun's rays fall on earth.when the sun's rays falls on moon making shadow on earth thats Solar eclipse. Whem sun's rays fall on earth fully making no light fall on moon ie) sun's rays falling on earth where moon behind earth gets no light. During solar eclipse we see moon revolving earth makes sun's rays not reach to the place on earth. During lunar eclipse we see no moon as suns' rays not reach Moon
At the equator, the sun's rays strike the earth vertically - making their path through the atmosphere shorter than at the poles - thus more of the sun's energy reaches the earth's surface. Towards the poles, the angel of the sun's rays is flatter - meaning they pass through more of the earth's atmosphere.
the tilt of earth affects the sun's rays because if it is tilted the shaded part will not get the sun's rays but the other side will.
the tilt of earth affects the sun's rays because if it is tilted the shaded part will not get the sun's rays but the other side will.
the tilt of earth affects the sun's rays because if it is tilted the shaded part will not get the sun's rays but the other side will.
Earth protects by blocking UV rays. These are harmful rays of the sun.
No. This planetary alignment causes a lunar eclipse because, the earth blocks the sun's rays from reaching the moon, so that the moon is inside the earth's shadow. S<<<E===m in the diagram above s represents the sun E represtents the Earth and m represents the moon. The< represents the sun's rays and the = represents the Earth's shadow.
the sun
the tilt of earth affects the sun's rays because if it is tilted the shaded part will not get the sun's rays but the other side will.
The earth travels on an orbit around the sun changing the distance the sun's rays would have to travel. It takes between 490 to 507 seconds for the rays to reach Earth.