Earth Materials. John O'Brien
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Название: Earth Materials

Автор: John O'Brien

Издательство: John Wiley & Sons Limited

Жанр: География

Серия:

isbn: 9781119512219

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СКАЧАТЬ and wave energy, that move very rapidly around the nucleus in ultimately unpredictable paths. Our depiction of the electron cloud is based on the probabilities of finding a particular electron at a particular place. The wave‐like properties of electrons help to define the three‐dimensional shapes of their probable locations, known as orbitals. The size and shape of the electron cloud defines the chemical behavior of atoms and ultimately the composition of all the Earth materials they combine to form. Simplified models of the electron cloud depict electrons distributed in spherical orbits around the nucleus (Figure 2.3); the reality is much more complex. Because the electron cloud largely determines the chemical behavior of atoms and how they combine to produce Earth materials, it is essential to understand some fundamental concepts about it.

Schematic illustration of distribution of electrons in the principal quantum levels of uranium.

      Every electron in an atom possesses a unique set of properties that distinguishes it from all the other electrons in that atom. An individual electron's identity is given by four properties that include its (1) principal quantum number, (2) azimuthal quantum number, (3) magnetic quantum number, and (4) spin number. Each electron in the electron cloud possesses a unique combination of the four quantum properties.

      The principal quantum number (n) signifies the principal quantum energy region, sometimes called “level” or shell in which a particular electron occurs. It is related to its distance from the nucleus. Principle quantum regions are numbered in order of increasing electron energies 1, 2, 3, 4, 5, 6 or 7 or alternatively lettered K, L, M, N, O, P or Q. These are arranged from low principal quantum number for low energy regions closer to the nucleus to progressively higher quantum number for higher energy regions farther away from the nucleus.

Principal quantum number Subshell description Number of electrons
1 (K) 1s 2
2 (L) 2s 2
2p 6
3 (M) 3s 2
3p 6
3d 10
4 (N) 4s 2
4p 6
4d 10
4f 14
5 (O) 5s 2
5p 6
5d 10
5f 14
6 (P) 6s 2
6p 6
7 (Q) 7s 2
Total = 92
Schematic illustration of the quantum properties of electrons in the 92 naturally occurring elements, listed with increasing quantum energy (E) from bottom to top; K-shell electrons violet; L-shell blue; M-shell bluish green; N-shell green; O-shell yellow; P-shell orange and Q-shell red.