This refers to the shape of the electron orbitals, which are often thought of as clouds of electronic charge.
I believe you're referring to the "electron cloud," which is a cloud-like region that surrounds the nucleus. This region contains a negative charge and is associated with an atomic orbital.
The shape of an electron cloud depends on the energy sublevel. Each electron cloud is different, so there is no definitive shape.
The energy sublevel.
a pyroclastic cloud is a cloud of gas, ash, dust, stones and rocks emitted during a highly explosive volcanic eruption.
It is true only for s-orbital which is spherical in shape. p-, f- and d- orbitals are not spherical in shape.
There is a branch of chemistry called physical chemistry, which deals with phase changes (the phases being solid, liquid, or gas). Clouds involve phase changes. Liquid water evaporates to produce clouds which then condense back into liquid to produce rain, or freeze to produce snow. Chemistry can shed light on exactly how these things happen.
cloud can shape in different ways by air Ex: mushroom, dragon, plane if you see a cloud and it looks like something that is a cloud shape
cloud shape
The shape of an electron cloud depends on the energy sublevel. Each electron cloud is different, so there is no definitive shape.
air?
air?
thin and wispy
Nothing!
The large magellanic cloud galaxy has an irregular shape. It does not look like spiral and elliptical galaxies shown in pictures.
The distance from the center of the nucleus to the outer "edge" of the electron cloud.
Waterspout.
The energy sublevel.
Most likely it is a funnel cloud. If it touches the ground then it is a tornado.