Tuesday 26 July 2016



Periods and Blocks

There are seven horizontal rows of the periodic table, called periods. The length of each period is determined by the number of electrons that are capable of occupying the sublevels that fill during that period, as seen in the table below.
PeriodNumber of Elements in PeriodSublevels in Order of Fill
Table 6.8.1: Period Length and Sublevels in the Periodic Table
121s
282s 2p
383s 3p
4184s 3d 4p
5185s 4d 5p
6326s 4f 5d 6p
7327s 5f 6d 7s
Recall that the four different sublevels each consist of a different number of orbitals.  The s sublevel has one orbital, the p sublevel has three orbitals, the d sublevel has five orbitals, and the f sublevel has seven orbitals. In the first period, only the 1s sublevel is being filled. Since all orbitals can hold two electrons, the entire first period consists of just two elements. In the second period, the 2s sublevel, with two electrons, and the 2p sublevel, with six electrons, are being filled. Consequently, the second period contains eight elements. The third period is similar to the second, filling the 3s and 3p sublevels. Notice that the 3d sublevel does not actually fill until after the 4s sublevel. This results in the fourth period containing 18 elements due to the additional 10 electrons that are contributed by the d sublevel. The fifth period is similar to the fourth. After the 6s sublevel fills, the 4f sublevel with its 14 electrons fills. This is followed by the 5d and the 6p. The total number of elements in the sixth period is 32. The later elements in the seventh period are still being created. So while there are a possible of 32 elements in the period, the current number is slightly less.
The period to which a given element belongs can easily be determined from its electron configuration. For example, consider the element nickel (Ni). Its electron configuration is [Ar]3d84s2. The highest occupied principal energy level is the fourth, indicated by the 4 in the 4s2 portion of the configuration. Therefore, nickel can be found in the fourth period of the periodic table.
Based on electron configurations, the periodic table can be divided into blocks denoting which sublevel is in the process of being filled. The spd, and f blocks are illustrated below.
Figure 6.8.1: The periodic table labeled with sublevel blocks.
The figure also illustrates how the d sublevel is always one principal level behind the period in which that sublevel occurs. In other words, the 3d sublevel fills during the fourth period. The f sublevel is always two levels behind. The 4f sublevel belongs to the sixth period

Families of the Periodic Table

Remember that Mendeleev arranged the periodic table so that elements with the most similar properties were placed in the same group. A group is a vertical column of the periodic table. All of the 1A elements have one valence electron. This is what causes these elements to react in the same ways as the other members of the family. The elements in 1A are all very reactive and form compounds in the same ratios with similar properties with other elements. Because of their similarities in their chemical properties, Mendeleev put these elements into the same group. Group 1A is also known as the alkali metals. Although most metals tend to be very hard, these metals are actually soft and can be easily cut.
Group 2A is also called the alkaline earth metals. Once again, because of their similarities in electron configurations, these elements have similar properties to each other. The same pattern is true of other groups on the periodic table. Remember, Mendeleev arranged the table so that elements with the most similar properties were in the same group on the periodic table.
It is important to recognize a couple of other important groups on the periodic table by their group name. Group 7A (or 17) elements are also called halogens. This group contains very reactive nonmetal elements.
The noble gases are in group 8A. These elements also have similar properties to each other, the most significant property being that they are extremely unreactive, rarely forming compounds. We will learn the reason for this later, when we discuss how compounds form. The elements in this group are also gases at room temperature.
An alternate numbering system numbers all of the sp, and d block elements from 1-18. In this numbering system, group 1A is group 1; group 2A is group 2; the halogens (7A) are group 17; and the noble gases (8A) are group 18. You will come across periodic tables with both numbering systems. It is important to recognize which numbering system is being used and to be able to find the number of valence electrons in the main block elements regardless of which numbering system is being used.

Periods of the Periodic Table

If you can locate an element on the Periodic Table, you can use the element's position to figure out the energy level of the element's valence electrons. A period is a horizontal row of elements on the periodic table. For example, the elements sodium (Na) and magnesium (Mg) are both in period 3
. The elements astatine (At) and radon (Rn) are both in period 6.

 




Grouping methods


Group numbera[hide]123d456789101112131415161718
Mendeleev (I–VIII)IIIIIIIVVVIVIIVIIIIIIIIIIVVVIVIIb
CAS
(US, pattern A-B-A)
IAIIAIIIBIVBVBVIBVIIBVIIIBIBIIBIIIAIVAVAVIAVIIAVIIIA
old IUPAC
(Europe, pattern A-B)
IAIIAIIIAIVAVAVIAVIIAVIIIIBIIBIIIBIVBVBVIBVIIB0
Trivial nameAlkali metalsAlkaline earth metalsCoin­age metalseVola­tile metalseIcosa­genseCrys­tallo­gensePnicto­gensChal­co­gensHalo­gensNoble gases
Name by elementLith­ium groupBeryl­lium groupScan­dium groupTitan­ium groupVana­dium groupChro­mium groupMan­ga­nese groupIron groupCo­balt groupNickel groupCop­per groupZinc groupBoron groupCar­bon groupNitro­gen groupOxy­gen groupFluor­ine groupHelium orNeon group
Period 1HcHe
Period 2LiBeBCNOFNe
Period 3NaMgAlSiPSClAr
Period 4KCaScTiVCrMnFeCoNiCuZnGaGeAsSeBrKr
Period 5RbSrdYZrNbMoTcRuRhPdAgCdInSnSbTeIXe
Period 6CsBaLa–YbLudHfTaWReOsIrPtAuHgTlPbBiPoAtRn
Period 7FrRaAc–NoLrdRfDbSgBhHsMtDsRgCnUutFlUupLvUusUuo
a Current, modern IUPAC group number.
b The noble gases had not yet been discovered at the time of Mendeleev's original table. Later (1902), Mendeleev accepted the evidence for the existence of the noble gases, and placed them in a separate "group 0".
c Hydrogen (H), while placed in column 1, is not considered to be in the group alkali metals.
d Group 3: Depending on the source, this group includes lutetium (Lu) and lawrencium (Lr), or lanthanum (La) and actinium (Ac), or the whole set of 15 lanthanides and 15 actinides, as the entries below scandium and yttrium.
e This group name is not recommended by IUPAC.




Group 1:

Group 2 Infographic:


Element Infographics - Group 3:


group-4 #crystallogens:

Group 5 Infographic:
Group 6 infographic:

Group 7 Infographic:


Transition-Metals.png (700×498):

This graphic looks at the elements known as the lanthanides – the ones stranded at the bottom of the periodic table, along with the actinides.   See complete visual periodic table at  http://www.worldofchemicals.com/utilities/periodictable.html Images was originally shared by www.compoundchem.com:


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