0
What else can I help you with?
Why does visible light pass through the atmosphere?
Visible light passes through the atmosphere primarily because it consists of wavelengths that are not significantly absorbed or scattered by the gases and particles present in the air. Unlike ultraviolet or infrared radiation, which can be absorbed by ozone or water vapor, visible light interacts minimally with atmospheric constituents. This allows it to reach the Earth's surface, enabling us to see and support photosynthesis in plants. Additionally, the atmosphere's transparency to visible light is crucial for maintaining the planet's energy balance.
Ultraviolet radiation from the sun is absorbed in the atmosphere?
Most visible light is bounced back into space, while some of it is absorbed into the atmosphere.
Solar radiation percentage reaches earth's surface in what wavelength?
They all do to some extent, but some wavelengths get through more easily than others. The Sun's radiation is primarily in the visible part of the radiation spectrum. A lot of that reaches the ground. A fair amount of the ultraviolet radiation is blocked by the ozone layer in our atmosphere. Some infrared radiation is absorbed by the atmosphere, but some also gets through to the Earth's surface. Radio wavelengths get through to the surface quite easily, which is why radio telescopes can be used on Earth.
What reaches the earth first x-ray radiation or visible light?
From the same event on the same source both should arrive at the same time, unless delayed by an intervening medium.
How much sunlight is absorbed into the atmosphere?
Our current atmosphere absorbs about 16% of the incoming radiation. Another 30% is reflected as it is entering. Some is scattered into space through deflection. Less then half of the energy hitting the atmosphere makes it to our planet. Most of the energy hitting bounces off of it as visible light. (albedo effect). Visible light will pass through the atmosphere pretty much unabated. A portion of the energy hitting our planet is absorbed by planets or converted nto infrared energy. The infrared radiation is slowly released during the night hours. A portion of this is absorbed by greenhouse gases and that energy is also released during the evening to keep the planet warm and alive.
How much of radiation from visible light waves is absorbed as the radiation passes through the atmosphere?
almost none the vast majority of visible light passes through the atmosphere.
The solar radiation least absorbed by the layers of the atmosphere before reaching Earth is?
Ultraviolet radiation is the solar radiation least absorbed by the layers of the atmosphere before reaching Earth. This is due to the ozone layer, which helps to absorb and block a significant portion of the incoming ultraviolet radiation.
Why does visible light pass through the atmosphere?
Visible light passes through the atmosphere primarily because it consists of wavelengths that are not significantly absorbed or scattered by the gases and particles present in the air. Unlike ultraviolet or infrared radiation, which can be absorbed by ozone or water vapor, visible light interacts minimally with atmospheric constituents. This allows it to reach the Earth's surface, enabling us to see and support photosynthesis in plants. Additionally, the atmosphere's transparency to visible light is crucial for maintaining the planet's energy balance.
Which parts of the Sun's radiation are responsible for heating Earth's surface?
The visible light and infrared radiation from the Sun are primarily responsible for heating Earth's surface. Visible light is absorbed by the Earth's surface, warming it up, while infrared radiation is absorbed by greenhouse gases in the atmosphere, trapping heat and contributing to the greenhouse effect.
Does earth's atmosphere block all radiation equally?
No. There are significant differences between different types of radiation. Visible light and radio waves go right through (and reach Earth's surface); most other radiations are absorbed.
What are the steps that the sunlight goes though when it enters the atmosphere?
Sunlight gets absorbed, scattered, reflected, and transmitted through the atmosphere. Almost all of the ultraviolet component gets absorbed by ozone in the stratosphere. About half of the radiation gets absorbed or scattered and reflected in the troposphere. The remainder passes through, getting absorbed by the earth's surface.
The energy from the Sun arrives through the process of radiation what forms of energy can be transferred through radiation?
Energy from the Sun can be transferred in the form of electromagnetic radiation, including visible light, ultraviolet rays, and infrared radiation. These forms of energy are transmitted through space without the need for a medium and are absorbed by the Earth's atmosphere and surface.
Ultraviolet radiation from the sun is absorbed in the atmosphere?
Most visible light is bounced back into space, while some of it is absorbed into the atmosphere.
Visible and shortwave radiation heat Earth?
Yes it is. Visible light or Shortwave are radiation and it contain energy, when these radiation hit earth surface some fraction of radiation is absorb and transform from radiation energy to thermal energy.
Does CO2 allow visible sunlight to pass through it as if it were there?
Yes, carbon dioxide (CO2) is transparent to visible sunlight, allowing it to pass through without being absorbed or scattered. It becomes a greenhouse gas by trapping infrared radiation, leading to warming of the Earth's atmosphere.
What kind of radiation passes through the atmosphere and reaches the earths surface?
Most of the visible light and some of the ultraviolet and infrared radiation from the sun pass through the atmosphere and reach the Earth's surface. Other forms of radiation, such as gamma rays and X-rays, are mostly absorbed by the atmosphere and do not reach the surface.
How is heat transfered fron the sun to eatrh?
Heat from the sun is transferred to Earth through electromagnetic radiation, mainly in the form of visible light and infrared radiation. This radiation travels through the vacuum of space until it reaches Earth's atmosphere, where some of it is absorbed and warms the surface of the planet. The heat is then further distributed through conduction, convection, and latent heat processes within Earth's atmosphere and surface.
