Question #b5bf3

1 Answer
Oct 8, 2015

s, p, d and f-blocks are four divisions of the periodic table.

Explanation:

The whole periodic table is divided into four blocks. Groups 1 and 2 are called the s-block, because all the elements in those groups have electronic configurations ending is the s-orbital. For example, in Group 1, lithium has an electronic configuration of #1s^2 2s^1# and Francium has an electronic configuration #[Rn] 7s^1#. In Group 2, Beryllium has electronic configuration #1s^2 2s^2# and Radium has electronic configuration #[Rn] 7s^2#. As you can see, in both these groups, all the elements have electronic configuration such that they end in a s-orbital.

The transition metals, from Group 3 to Group 12, are called the d-block. The elements in these groups have electronic configuration such that they end in the d-orbital. Example:
#Sc# : #1s^2 2s^2 2p^6 3s^2 3p^6 4s^2 3d^1#
#Hg# : #[Xe] 5d^10#

The elements from Groups 13 to 18 are called the p-block. They have electronic configuration that end in p-orbital. Example:
#B# : #1s^2 2s^2 2p^1#
#Rn# : #[Xe] 6p^6#
*n.b.: Helium is an exception. Although in group 18, its electronic configuration is #1s^2 2s^2#

In between Group 2 and the transition metals, there is a narrow band of elements in the 6th and 7th periods. They are called the Lanthanides and the Actinides respectively. These elements are the f-block. Their electronic configuration always end in the f-orbital. Example:
#La# : #[Xe] 4f^1#
#Lr# : #[Rn] 4f^14#

Note, I haven't written the full electronic configuration. I've only shown the last part of the configuration for elements with large atomic numbers, because that's the only relevant part in your question. http://www.drcruzan.com/Chemistry_PeriodicTable.html