The temperature rises most from direct rays because they are more concentrated than slanted rays. Direct rays hit the Earth's surface more directly, leading to more heat absorption compared to slanted rays that are spread over a larger area.
Direct rays from the sun increase temperature by transferring heat energy to the Earth's surface. These rays are more concentrated and have a greater impact on heating the surface compared to indirect or diffuse light. The angle at which the direct rays hit the surface also influences the amount of heat received.
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.
Temperature changes from month to month due to variations in the angle of sunlight, Earth's tilt, and distance from the sun. These factors affect the amount of heat and light received at different times of the year, leading to the fluctuation in temperatures.
Gamma rays do not have a temperature because they are forms of energy, not matter. Temperature is a measure of the average kinetic energy of particles in a substance, but gamma rays are massless packets of energy with no inherent temperature.
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.
Summer
Wherever it is just sunrise or just sunset.
The equator receives direct rays from sun. It is present in front of sun.
Because of direct sunshine (not the slanted rays like in Polar and sub-Polar regions) and abundant rains.
Because of direct sunshine (not the slanted rays like in Polar and sub-Polar regions) and abundant rains.
Direct rays from the sun increase temperature by transferring heat energy to the Earth's surface. These rays are more concentrated and have a greater impact on heating the surface compared to indirect or diffuse light. The angle at which the direct rays hit the surface also influences the amount of heat received.
The slant rays relate to the seasons because the direct rays shine right on a spot and that makes summer. But as the earth tilts the rays are not as strong and not as bright so if its not a direct its slanted which gives it different seasons.!!
When the North Pole tilts away from the sun, the most direct rays strike the Southern Hemisphere, closer to the Tropic of Capricorn. This results in winter in the Northern Hemisphere and summer in the Southern Hemisphere.
During the daytime.
tropic of cancer
A+ at the equator-inator DOOF
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.