true
the radio
Atmosphere, clouds, and ozone layer.
The thin clouds bend the light toward the red /pink area of the spectrum. As the storm gathers, the particles are denser and the refraction is further up the spectrum
Infrared light can penetrate through clouds. The resulting images were adjusted to assign colors in the visible spectrum. You can search the web for "False-color imaging" and find more information on this image enhancement technique.
The Hubble Space Telescope is able to observe star formation even in the presence of dense dust clouds. It is equipped with instruments that can detect different wavelengths of light, including ultraviolet and infrared, which can penetrate through the dust and provide clear views of star-forming regions. This allows scientists to study and understand the process of star birth in greater detail.
the radio
Infrared
infrared radiation
You may experience sunburned skin if you allow your skin to be exposed to the ultraviolet waves that penetrate the clouds on a cloudy day. Ultraviolet waves are at the opposite end of the visible light spectrum from infrared waves. Ultraviolet (UV) waves are longer than X-rays.
No. When looking at venus through UV imaging, the clouds in the atmosphere is what is picked up, not the planets suface features.
Ultraviolet
Atmosphere, clouds, and ozone layer.
It depends on how cloudy the sky is and what type of clouds there are. Of course bright sunny days are the best. Still, a considerable amount of light gets through clouds. Ultraviolet light shines through clouds. If solar panels could be designed to pick up ultraviolet, then they would work fine on cloudy days.
The solar energy that is absorbed in gasses clouds and ozone is little. The UV spectrum is absorbed.
The electromagnetic wave that allowed us to see through dusty clouds and observe stars forming for the very first time is the infrared radiation.
Clouds help keep warmth from radiating away from land. "No clouds" do let warmth radiate away, making it cooold. The coldest day of the year is quite often on a cloudless day for this reason.
Clouds are red because the red light spectrum is longer than blue. As the earth turns and the landscape is further away from the sun we see the red sky (or clouds).