Venus, of course.
Clouds are part of the weather process. The driving factor is not the clouds but the heat from the Sun. This said however, clouds are reflective and when these is a dense cloud cover less solar radiation hits the planets surface. They also tend to act like a blanket and reflect back any heat that the Earth is radiating.
Jupiter is the planet that is a bluish ball of liquid surrounded by thick clouds of gas. It is the largest planet named after the Roman god, Jupiter.
The cirrus clouds, cirrocumulus clouds, cirrostratus clouds, and cumulonimbus clouds.
the 3 types of clouds are the following: Cumulus Clouds,Cirrus Clouds, and Stratus Clouds
In the ionosphere THERE ARE NO CLOUDS (no water clouds but plasma clouds)
This planet is Venus.
From what you wrote, it sounds like the planet Mercury
No
Jupiter.
An ice cube is surrounded by clouds because the temperature of ice is colder than its surrounding temperature. The "clouds" are water vapor that condensate when it comes in contact with the cold air.
Uranus
Venus is surrounded by thick clouds of sulfur dioxide and sulfuric acid. These clouds make the atmosphere visibly impenetrable, and they participate in a runaway greenhouse effect that drives the surface temperature to 860 F.
No, it does not have enough mass to hold any "atmosphere".
Atoms are particles with a small positive nucleus that is surrounded by clouds of electrons.
Water in clouds or anywhere else is a compound, as long as it doesn't have dissolved solids in it (as in fresh water). If it has solids or anything else dissolved in it, then it is a mixture (solution).
this is to do with the clouds albedo (the amount of light they reflect) whiter clouds have more small particles whist dark clouds have less but bigger particles, this makes the white cloud more reflective as the particles have a bigger surface area
Clouds are part of the weather process. The driving factor is not the clouds but the heat from the Sun. This said however, clouds are reflective and when these is a dense cloud cover less solar radiation hits the planets surface. They also tend to act like a blanket and reflect back any heat that the Earth is radiating.