Modern inorganic chemistry

THE PERIODIC TABLE 9

Table 1.

ELECTRONIC CONFIGURATION OF THE ELEMENTS POTASSIUM TO KRYPTON

Atomic Element Is 2s 3s 3p 5d 4s 4p

number

19

20

21

22

23

*

25

26

27

28

*

30

31

32

33

34

35

36

K

Ca

Sc

Ti

v

Cr

Mn

Fe

Co Argon

Ni core

Cu

Zn

Ga

Ge

As

Se

Br

Kr

T

T

T

T

T

tl

tl

n

Ti

ti

Ti

Ti

Ti

tl

Tl

tl

T T T T T n

Tl

n

Tl

t!

TI

Tl

Ti

n

Ti

T

f

T

t

T

Ti

ti

TI

Ti

ti

tl

n

n

ti

t

T

t

t

t

Ti

tl

n n n n n n

t

r

T

T

T

Ti

Tl

n

Tl

n

n

n

Ti

t

Ti

Ti

Ti

n

n

ti

n

u

ti

t

ti

n

ti

n

ti

n

Tl

T

r

T

Ti

ti

Ti

T

T

t

Ti

Ti

t

T

T

Ti

• The tendency to attain either a half filled or fully filled set of d orbitals at the expense of the outer s orbital
  is shown by both chromium and copper and should be noted. This apparent irregularity will be discussed in more
  detail in Chapter 13.
  Note. The electronic configuration of any element can easily be obtained from the periodic table by adding up
  the numbers of electrons in the various quantum levels. We can express these in several ways, for example electronic
  configuration of nickel can be written as Is^2 2s^2 2p^6 3s^6 3<i^8 4s^2 , or more briefly ('neon core') 3d^8 4s^2 , or even more
  simply as 2. 8. 14. 2.

Chemical properties and spectroscopic data support the view that
in the elements rubidium to xenon, atomic numbers 37-54, the 5s, 4d
5p levels fill up. This is best seen by reference to the modern periodic
table p. (/). Note that at the end of the fifth period the n = 4 quantum
level contains 18 electrons but still has a vacant set of 4/ orbitals.
The detailed electronic configurations for the elements atomic
numbers 55-86 can be obtained from the periodic table and are shown
below in Table 1.5.
Note that the filling of the 4/ orbitals begins after lanthanum
(57) and the 14 elements cerium to lutetium are called the lanthanides
(Chapter 15). The electronic configuration of some of the newly dis-
covered elements with atomic numbers greater than 95 are uncertain
as the energy levels are close together. Filling of the 5/ orbitals does
begin after actinium (89) and the remaining elements are generally
referred to as actinides (Chapter 15).