Temperature, available water vapor, and dust partices to condense around.
No, a cloud formed in hot air is not denser than a cloud formed in cold air. Cloud formation is primarily determined by the saturation level of air, where warm air can hold more water vapor before condensation occurs. The density of the cloud itself depends more on the amount of water droplets or ice crystals present rather than the temperature of the air in which it formed.
The gravitational force in a molecular cloud depends on the mass of the cloud and the distance between particles. The force is stronger when there is more mass within the cloud and when particles are closer together.
Solid particles, such as dust, are necessary for cloud formation because they serve as cloud condensation nuclei (CCN). CCN provide a surface for water vapor to condense onto, initiating the formation of cloud droplets. Without these particles, the water vapor would struggle to condense and form clouds. Additionally, the presence of dust particles can influence the characteristics and properties of the resulting clouds, such as their size, shape, and longevity.
Increasing pressure generally inhibits the formation of clouds, as higher pressure tends to suppress air ascent and thus limits the cooling and condensation process necessary for cloud formation. On the other hand, decreasing pressure can promote cloud formation by allowing air to rise, cool, and condense more easily.
The Jeans mass is the minimum amount of mass needed for a gas cloud to collapse and form a star. When a sound wave travels through a gas cloud, it can cause the cloud to become unstable and collapse if its mass exceeds the Jeans mass. This collapse leads to the formation of a star.
The cloud type depends on the height and formation of the cloud. Cloud types will be different for different locations during the same time period, therefore, will vary depending on location.
The movement of air can both result in cloud formation and inhibit cloud formation. When warm, moist air rises and cools, it can condense to form clouds. On the other hand, strong winds can disperse clouds and prevent them from forming by disrupting the necessary vertical motion of air.
No
Yes, pollution can affect cloud formation by altering the composition of aerosols in the atmosphere. Increased levels of pollution can lead to more aerosols, which can impact cloud droplet formation and properties, potentially influencing cloud cover, precipitation patterns, and overall cloud behavior.
Cloud formation is not omnibus. Cloud formation is a natural phenomenon where water vapor condenses in the atmosphere to form visible cloud structures. On the other hand, omnibus refers to something that includes or covers everything, such as a comprehensive collection of items or services.
It depends what context you are looking at it from. If you are looking at atmospheric the CCN stands for cloud condensing nuclei which are effectively particles released into the atmosphere by exhaust and act as a platform for condensation and cloud formation
It depends. Common whirlwinds such as dust devils and steam devils are not associated with any sort of cloud formation. Tornadoes involve multiple cloud types. In a typical case, a funnel cloud emeges from a wall cloud, which is attatched to a cumulonimbus cloud. Waterspouts can from from cumulonimbu or cumulus congestus clouds.
Cumulonimbus
pancakes
Cloudy Skys
the jewish
"Calculus" This is one: Not a cloud formation as the others are. Two: Calculus is a type of mathematic word form.