infared radiation
No, it reflects the light from the sun onto the Earth.
After the earth absorbs the visible light from the sun the earth re-emits the infrared emissions as the type of the electromagnetic waves.
The Sun. And also: when electrons go from excited state back to ground level, the energy that they had transforms into light which is given off.
A meteor emits light as it burns up in the Earth's atmosphere. This is due to the intense heat generated by friction with the atmosphere, causing the meteor to glow and create a streak of light known as a meteor trail.
Daytime is light because the sun emits light that reaches our atmosphere and illuminates the Earth's surface. Night is dark because the Earth rotates and moves away from the direct sunlight, causing the absence of light reaching the surface.
The Earth does not emit light, it like the moon reflects light
No, it reflects the light from the sun onto the Earth.
After the earth absorbs the visible light from the sun the earth re-emits the infrared emissions as the type of the electromagnetic waves.
No, the Earth is not a source of light itself. The Earth's primary source of light is the Sun, which emits light and energy that reaches the Earth and illuminates it. The Earth reflects some of this light, which is why we can see it.
Earth both reflects and emits light. The surface of the Earth reflects sunlight, which is why we can see it during the day. Earth also emits infrared radiation (heat) back into space, which is absorbed by greenhouse gases in the atmosphere.
No, the Earth does not produce light on its own. The light we see on Earth comes from sources such as the Sun, which emits light through nuclear fusion in its core. The Earth reflects and absorbs this light, but does not generate its own light.
It is called infared radiation. Hope that's the answer you need =)
When an electron returns to its stable or ground state, it emits a photon of light. This process is known as emission and is responsible for various forms of light emission including fluorescence, phosphorescence, and luminescence. The energy of the emitted photon is equivalent to the energy difference between the higher energy state and the lower stable state of the electron.
We can see the sun because it emits light and that light travels through space to reach our eyes on Earth.
Only the sun emits radiation in the wavelengths of visible light, which is considerably higher energy than infrared emitted by Earth.
pulsar
The Sun. And also: when electrons go from excited state back to ground level, the energy that they had transforms into light which is given off.