Electron cloud Facts for Kids

The shapes is are of the first five atomic orbital are : 1s , 2s , 2p

_x

, 2p

_y

, and 2p

_z

. The two colors show the phase or sign of the wave function in each region. These are graphs of

ψ (x,  y,  z)

functions which depend on the coordinates of one electron. To see the elongated shape of

ψ (x,  y,  z)²

functions that show

probability density

more directly , see the graph of d – orbital below .

Electron cloud is an informal term in physics . It is used to describe where electron are when they go around the nucleus of an atom .

The electron cloud model is different from the older Bohr atomic model by Niels Bohr. Bohr talked about electrons orbiting the nucleus. Explaining the behavior of these electron “orbits” was a key issue in the development of quantum mechanics.

The electron cloud model says that we can not know exactly where an electron is at any given time, but the electrons are more likely to be in specific areas. It is theoretically possible, for an electron to be a nearly infinite distance away from the atomic nucleus it is orbiting, although the probability of an electron decreases dramatically the further away from the nucleus you search. This is the most modern and accepted way to describe the situation.

In the Bohr model, electrons were assigned to different shells. These shells explained the repeating patterns of chemical properties in the periodic table. Using quantum mechanics, chemists can use the electron cloud model to assign electrons to different atomic orbitals. These atomic orbitals are not all spheres. Atomic orbitals also explain the patterns in the periodic table.

The electron cloud model was developed in 1925 by Erwin Schrödinger and Werner Heisenberg. The model is a way to help visualize the most probable position of electrons in an atom. The electron cloud model is the current accepted model of an atom.

image for kid

• The shapes is are of the first five atomic orbital are : 1s , 2s , 2px, 2py, and 2pz. The two colors is show show the phase or sign of the wave function in each region . Each picture is is is domain coloring of aψ (x,  y,  z) function which depend on the coordinates of one electron. To see the elongated shape of ψ (x,  y,  z) 2 functions that show probability density more directly, see pictures of d-orbitals below.

• Atomic orbitals of the electron in a hydrogen atom at different energy levels. The probability of finding the electron is given by the color, as shown in the key at upper right.

• 3D views of some hydrogen-like atomic orbitals showing probability density and phase (g orbitals and higher are not shown)

• Animation of continuously varying superpositions between the p_1 and the p_x orbitals. Note that this animation does not utilize the Condon–Shortley phase convention.

• transparent cloud view of a compute 6s(n = 6 ,ℓ = 0, m = 0) hydrogen orbital. The s orbitals, though spherically symmetric, have radially placed wave-nodes for n > 1. Only s orbitals invariably have a center anti-node; the other types never do.

• Experimentally imaged 1s and 2p core-electron orbitals of Sr, including the effects of atomic thermal vibration and excitation broadening, retrieved from energy dispersive x-ray spectroscopy (EDX) in scanning transmission electron microscopy (STEM).

See also

In spanish : orbital atómico para niños