194 12 · CHEMICAL FAMILIES
An older numbering system for the groups is also shown on the Periodic Table,
whereby Groups 13, 14, 15, 16, 17 and 18 are shown as Groups 3, 4, 5, 6, 7 and 0,
respectively. This system does not number the block of elements known as the
d-block elements (transition elements).
Other points to note about the Periodic Table:
●The block of elements between Groups 2 and 13 is named the d-block elementsor
transition elements.
●The horizontal rows in the table are called periods. Period I consists only of the
two elements H and He. Period 2 consists of the elements Li, Be, B, C, N, O, F and
Ne. The zigzag line in the table separates the metals from the non-metals. The
metals are on the left and you can see that there are a great deal many more metals
in the table than non-metals.
●Hydrogen does not really belong in any group of the table, so it is usually placed at
the top, on its own.
In order that the Periodic Table should fit on a single page, the lanthanoids(ele-
ments 57–70) and actinoids(elements 89–102) series are usually written below the
table. We will not concern ourselves with the chemistry of these elements in this book.
After completing Exercise 12A, you should have gained a valuable clue as to why
elements in the same group often have similar physical and chemical properties:
All the elements in a given group have the same number of electrons in the
outermost shell of their atoms.
Since the type of bonding in compounds of an element is dependent on its ioniza-
tion energy, which is related to the number of electrons in the outermost shell of its
atoms, then we might expect those elements with similar electronic configurations to
exhibit similar properties. Although this is generally true of the elements in a group,
there are gradations (gradual changes) of the properties of the elements within a group.
If you write the electronic configuration of the elements in s,p,d,f notation, you
should be able to see that:
●Group 1 and Group 2 elements are often called the s-block elementsbecause they
have s-orbital electrons in the outermost shell of their atoms.
●Groups 13 to 18 elements are called the p-block elementsbecause they have
p-orbital electrons in the outermost shell of their atoms.
●The block of elements betweenGroups 2 and 13 is known as the d-block
elements, because d electrons generally play an important part in determining
their chemistry.
Group 1 elements – the alkali metals:
Li, Na, K, Rb, Cs, Fr
Electronic configuration
These elements have one electron in the outermost shell of their atoms; their chem-
istry is dominated by the tendency to lose this electron and they are good reducing
agents. The general ionic equation for this loss of an electron can be written as
MMe
12.2
Electron
arrangements of
elements in a
group
(i)iAtoms of Li (atomic
number 3) have the
electronic structure 2.1.
Write down the electron
arrangements (Bohr
model and s,p,d,f
structures) for the other
members of Group 1 –
Na, K and Rb. Can you
give a general
expression for the
electron arrangements
of the elements in
Group 1?
(ii)Write down the electronic
structure (Bohr model
and s,p,d,f
arrangements) for the
elements in Group
17 – F, Cl, Br, I. Give a
general expression for
the electron
arrangements of the
elements in this group.
Exercise 12A