It effects the tempature because of the heat force given off to make it. By Miles Isaac Sims.
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.
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.
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.
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.
Gamma rays do not affect the photographic plate as they are highly penetrating and pass through without creating an image.
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 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♥
If a thermometer is placed in direct sunlight, it will likely read a temperature that is higher than the actual air temperature. This is because the thermometer will absorb heat from the sunlight, which can cause it to register the temperature of the sun's rays rather than the surrounding air. The material and design of the thermometer can also affect its reading, as some types may respond more to radiant heat than others.
The color of the water is dark, therefore, it absorbs the sun's rays.
The direct rays of the sun are rays from the sun that hit a certain area.
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.
Ambient temperature and seasonality Exposure (direct sunlight) Wind
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.
No it does not. Earth's seasons are affected by Earth's tilt. The earth is tilted 23.5 degrees so seasons are created by the sun's direct rays hitting different parts of the earth. Summer in the northern hemisphere starts when the sun's direct rays hit the tropic of cancer. winter occurs in the northern hemisphere when the sun's direct rays hit the tropic of capricorn. fall and spring begin when the sun's direct rays are at the equator. (By the way, summer in the norther hemisphere occurs when the earth is farthest from the sun)
By using the sun rays to calibrate the amount of water if the temperature affects the water cycle then it affects the whole world.
Every country has direct rays of sunlight. However, it depends on the season. The polar regions have direct rays in the Summer, but non in the Winter, total darkness(Night).
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.