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You don't see much detail, and what you're actually seeing is the electron cloud.
Each one gives insight into a different aspect of the electron cloud.
In the electron cloud, it is impossible to know exactly where electrons are.
Does it have to have a new electron cloud as well?
In 1999 it served as an observatory for the electron cloud phenomenon.
The electrons move around the nucleus very quickly, making what is called an electron cloud.
Replies: We have to be very careful when using the term "electron cloud".
Kind of like a nucleus inside the electron clouds.
The large charge pulls on the electron cloud of the iodines.
At greater distances, the electron clouds screen the nuclei from each other.
There are many different ways of measuring the electron cloud in a vacuum chamber.
The electron cloud is the shape of the atom.
As two molecules approach each other, their electron clouds mutually repel.
This is a measure of the distance out to which the electron cloud extends from the nucleus.
So this method "sees" the electron cloud surrounding the molecular framework.
As two polymer chains approach, their electron clouds repel one another.
The electron cloud has a very small mass, but it makes up most of the space of the atom.
This electron cloud expansion effect may occur for one (or both) of two reasons:
X-rays interact primarily with the electron cloud surrounding each atom.
The atom's electron cloud does not influence alpha particle scattering.
The gas ionizes when it reaches the electron cloud.
The electron cloud's charge corresponds to the photon energy.
The electron then moves to another part of the electron cloud and the attraction is broken.
This area is called the electron cloud.
This is due to the increased polarizability of molecules with larger, more dispersed electron clouds.