Yes, the sun's rays are generally indirect at the North Pole due to the axial tilt of the Earth. This results in low angles of sunlight reaching the area, especially during the winter months, leading to cooler temperatures compared to regions closer to the equator.
Yes, areas of high latitude receive indirect rays from the sun due to the curvature of the Earth, leading to cooler temperatures. The angle at which the sunlight reaches these regions causes less solar energy to be absorbed, resulting in lower temperatures compared to areas closer to the equator.
During a December solstice, the tangent rays of the sun are focused on the Tropic of Capricorn, which is located at approximately 23.5 degrees south latitude. This results in the southern hemisphere receiving more direct sunlight and experiencing its summer season, while the northern hemisphere receives indirect sunlight and experiences winter.
Yes, X-rays and gamma rays have higher frequencies than ultraviolet rays.
Both Gamma Rays and X Rays have a much high frequency that Ultraviolet Rays.
direct rays are from the sun and indirect rays are from something else, like it was reflected or something(ex:the moon. It bounces the sun's rays) AKT♥
Indirect rays refer to sunlight that is reflected, scattered, or diffused before reaching a surface or object. This can result in lower intensity or indirect illumination compared to direct sunlight.
Yes, direct rays heat a place more than indirect rays. Direct rays are concentrated and deliver more energy per unit area compared to indirect rays, which are more dispersed and have lower energy intensity. This is why direct exposure to sunlight can feel much warmer than being in the shade on a sunny day.
Well, honey, North America gets indirect sun rays all year round, including in August. The tilt of the Earth's axis causes the angle of the sun's rays to change throughout the year, giving us those lovely indirect rays. So yes, in August, North America is still basking in the glow of those indirect sun rays.
Indirect rays refer to sunlight that reaches the earth's surface at an angle, rather than directly from overhead. This can occur early in the morning, late in the afternoon, or in locations where the sun is not directly overhead. Indirect rays are weaker than direct rays and can create diffuse or softer lighting conditions.
The north and south poles
Indirect rays of the sun refer to sunlight that has been scattered or deflected by the Earth's atmosphere before reaching the surface. This kind of sunlight is less intense than direct sunlight, which comes in a straight line from the sun to the surface. Indirect rays are more common during early morning, late afternoon, or on cloudy days.
Direct rays provide more intense heat and light as they hit the Earth's surface more directly, leading to warmer temperatures. Indirect rays are less intense as they hit the surface at an angle, resulting in cooler temperatures. The angle at which the rays hit the Earth also affects the amount of energy they provide for processes like photosynthesis.
indirect rays
Late fall & early winter.
It is because the vertical rays covers the larger surface area where as the slanting rays does not.
A direct rays is when the Sun's light hits the specified part of Earth that you are observing at an exact angle of 900 . This means that the Sun's rays are perpendicular to the Earth; Direct rays compared to indirect rays are one of the factors for the occurrence of seasons on Earth.