The Earth projects a powerful magnetic field from the spinning of it's mantle/core. These magnetic fields deflect most of the Suns worst rays. But some pass through but are also deflected by various parts of the atmosphere.
To the extent to which the energy is absorbed, yes. Reflectivity and color determine how much energy is absorbed, but no matter can reflect 100% of the energy striking it. Some will be absorbed by the molecules.
Less than 1% of the Sun's energy is absorbed by Earth's geosphere. The majority of the Sun's energy is absorbed by the atmosphere and surface of the Earth.
The Earth receives about one billionth of the total energy output of the Sun. This energy drives Earth's weather systems, sustains life through photosynthesis, and powers the water cycle.
The Earth receives about 174 petawatts of solar energy from the sun. This energy is enough to power all human activity on the planet many times over.
No, the Earth does not give off as much energy as it takes from the Sun. The Earth reflects, absorbs, and radiates a portion of the solar energy it receives, but it does not emit an equal amount back into space. Some of the energy is also used in processes like photosynthesis, weather patterns, and ocean currents.
the Sun, sunlight is our primary source of radiant energy, without it- life on Earth would pretty much cease to exist. Radiant energy is given off by space heaters, toasters, stove burners, light bulbs (give radiant energy as heat and as light), etc.. All electromagnetic energy from gamma rays, x-rays, thru radio waves are types of radiant energy.
the Sun, sunlight is our primary source of radiant energy, without it- life on Earth would pretty much cease to exist. Radiant energy is given off by space heaters, toasters, stove burners, light bulbs (give radiant energy as heat and as light), etc.. All electromagnetic energy from gamma rays, x-rays, thru radio waves are types of radiant energy.
It powers various natural processes on Earth, such as photosynthesis in plants. It provides heat and light energy for our daily needs. It is the primary source of energy for solar power generation. It plays a crucial role in regulating Earth's climate and temperature. Radiant energy can be harnessed for various applications, such as in medical treatments and communication technologies.
Radiant light(1367 W/sq.m) Radiant heat (3,850,000 EJ)
There is no such thing. You can define antonyms for simple properties, such as "tall", "fast", "dumb", etc., but for most objects, it doesn't make much sense to talk about antonyms.
27%
The ozone layer, located in the Earth's stratosphere, protects us from high-energy radiation by absorbing much of the Sun's ultraviolet (UV) radiation. This absorption prevents harmful UV rays from reaching the Earth's surface and causing damage to living organisms.
To the extent to which the energy is absorbed, yes. Reflectivity and color determine how much energy is absorbed, but no matter can reflect 100% of the energy striking it. Some will be absorbed by the molecules.
That depends very much on what kind of radiant energy and how much of it you get. A large dose of radiant gamma radiation is very unhealthy. A moderate amount of sunshine (which is radiant energy) is good for you and promotes the production of vitamin D. Too much UV radiation will give you sunburn and can cause skin cancer.
Radiant energy is a clean and renewable energy source that does not produce greenhouse gas emissions or air pollutants. It is abundant and widely available, making it a reliable source of energy. Additionally, radiant energy can be harnessed using various technologies such as solar panels, allowing for decentralized energy production.
1% or less
Because it gives of soo much heat x