The strongest is in the tropics, where the sunlight is nearly perpendicular to the surface and about the same duration year-round.
this is known as radiant energy. the suns radiation does it
The Sun's radiation reflects back into space due to the Earth's atmosphere and surface properties. Some of the incoming solar energy is absorbed by the Earth, while a portion is scattered or reflected by clouds, aerosols, and surfaces like ice and water. This reflection, known as albedo, helps regulate the Earth's climate by preventing all solar energy from being absorbed, thus maintaining a balance in the planet's temperature.
5%
Thermosphere and and Exosphere are the first ones to receive the suns rays so they can reflect to the clouds and the sun could reflect into the water and points to where it is needed Comment: I think the answer is "hot".
Solar energy reaches Earth in the form of sunlight. It is emitted by the sun as electromagnetic radiation and travels through space before reaching our planet. This sunlight carries energy that can be harnessed using solar panels to generate electricity.
Solar UV(ultraviolet) Radiation.
This Answer is as Variable, considering all of the varying Parameters, as it is Crucial to Our Tenuous Situation. This percentage, as Critical as it is, in not predictable as the Output of Solar radiation is as unknowable as the powerful Incidence of detrimental Cosmic Rays.
this is known as radiant energy. the suns radiation does it
The sun emits various types of waves, including electromagnetic radiation such as visible light, ultraviolet light, and infrared radiation. These waves are collectively referred to as solar radiation.
Light, solar radiation, suns rays, wind, altitude and more. But these are the main factors that affect air temperature.
it is the suns radiation
the radiation is the suns heat
The sun's radiation is essential for driving Earth's climate by providing heat energy that warms the planet. Variations in solar radiation can impact climate patterns, such as fluctuations in solar output affecting temperature changes. However, human activities, such as the burning of fossil fuels, have a larger influence on Earth's climate compared to natural variations in solar radiation.
The sun's corona has a temperature of 1,799,540 to 5,399540 Fahrenheit, which is significantly hotter than solar rays - the Sun's solar radiation is said to have a temperature of about 9980 Fahrenheit.
The sun's energy reaches the Earth as solar radiation in the form of electromagnetic waves, primarily in the form of visible light and infrared radiation.
The Sun's radiation reflects back into space due to the Earth's atmosphere and surface properties. Some of the incoming solar energy is absorbed by the Earth, while a portion is scattered or reflected by clouds, aerosols, and surfaces like ice and water. This reflection, known as albedo, helps regulate the Earth's climate by preventing all solar energy from being absorbed, thus maintaining a balance in the planet's temperature.
Radiation