Modern periodic table and classification of Elements

The modern periodic table consists of 7 periods ( horizontal rows ) , 18 groups ( vertical columns ) , The elements are arranged ascendingly according to their atomic numbers and the way to fill their atomic energy sublevels by electrons according to the Aufbeau ( building-up ) principle , where each element has one electron more than the element preceds it .

Modern periodic table

The atomic number of each element increases than the element preceds it in the same period by whole one , Each period begins by filling a new energy level with one electron , then filling the atomic energy sublevels lying in the same period successively , until we reach the last element in the period which is a noble gas that has completely filled energy levels .

The elements of the same vertical group are identical in the electronic composition of the highest ( outermost ) energy level , different in the principal quantum number ( n ) .

Both of sodium ₁₁Na and potassium ₁₉K have similar properties , Because they are identical in the electronic composition of the highest ( outermost ) energy level ( ns¹ ) .

Elements blocks of the modern periodic table

The table is divided into four main blocks , these blocks are s-block , p-block , d-block and f-block 

s-block elements

They are placed in the left hand block of the table , The s-block contains the elements whose outermost electrons occupy the s sub-level , The s-block consists of two groups of elements , they are :

1A whose electronic configuration ends with ns¹ , 2A whose electronic configuration ends with ns² , where n is the number of the outer energy level and the number of period at the same time .

p-block elements

The occupy the right hand block of the table , The p-block contains the elements whose outermost electrons occupy the p sublevel except helium ,The p-block consists of six groups , characterized by symbol A except zero group .

d-block elements

They occupy the middle block of the table , The d-block contains the elements with the outermost electrons occupy the d sublevel , The d-block consists of 10 vertical columns representing 8 groups which are characterized by the symbol B except eighth group which consists of 3 vertical columns .

The d-block elements are classified according to the number of the outer energy level and the period number into three series which are :

1. The first transition series : It includes the elements in which the 3d sub-level is filled successively , It lies in the fourth period and includes the elements from scandium ( ₂₁Sc ) to zinc ( ₃₀Zn ) .
2. The second transition series : It includes the elements in which the 4d sub-level is filled successively , It lies in the fifth period and includes the elements from yttrium ( ₃₉Y ) to cadmium ( ₄₈Cd ) .
3. The third transition series : It includes the elements in which the 5d sub-level is filled successively , It lies in the sixth period and includes the elements from lanthanum ( ₅₇La ) to mercury ( ₈₀Hg ) , excluding lanthanides .

f-block elements

They are separated down the table , to avoid being a very wide table , In which the f sub-level is filled successively , The f-block is divided into series – each of them includes 14 elements – which are :

1. The lanthanides series : It is placed in sixth period , in which the 4f sub-level is filled successively , The elements of this series were named -wrong- by rare Earth’s elements , because they are quite similar in behavior and very difficult to be separated as the outermost energy level for all of them 6s² .
   
2. The actinides series : It is placed in seventh period , in which the 5f sub-level is filled successively , All the elements of this series are radioactive and their nuclei are unstable .

The number of elements of any series of the f-block is 14 elements , while d-block contains 10 elements , because f-block elements in which the f-sublevel is successively filled and it consists of 7 orbitals , while d-block elements in which the d-sublevel consists of 5 orbitals and each orbital is occupied by 2 electrons .

Types of the periodic table elements

It is possible to classify the elements in periodic table into four types which are : 

1. Noble gases .
2. The representative elements .
3. The main transition elements .
4. The inner transition elements .

Noble gases

They are the elements of the zero group 18 which is the last column of the p-block , They are characterized by having energy levels completely filled by electrons and their electronic structure is np⁶ , except that of helium ₂He which is 1s² .

Noble gases may form compounds , but with great difficulty , because they are very stable elements as their energy levels are completely filled by electrons .

The representative elements

They are the elements of s and p-blocks , except that of zero group , They occupy the groups from 1 A : 7 A , These elements are characterized by the complete filling of all the energy levels with electrons , except for the highest level .

They are active elements , because their highest level tends to reach the completed configuration similar to the nearest noble gas ( ns² , np6 ) by gaining , losing or sharing electrons .

Ex : ₁₁Na → Na⁺ ( loses 1 electron )

1s² , 2s² , 2p⁶ , 3s¹ → 1s² , 2s² , 2p⁶ ( similar to the electronic configuration of neon gas ₁₀Ne ) 

₁₆S → S^{– –} ( gains 2 electrons )

1s² , 2s² , 2p⁶ , 3s² , 2p⁴ → 1s² , 2s² , 2p⁶ , 3s² , 3p⁶ ( similar to the electronic configuration of argon gas ₁₈Ar ) 

₁H + ₁H → H₂  ( sharing )

1s¹ + 1s¹→ 1s² ( similar to the electronic configuration of helium gas ₂He ) 

The main transition elements

They are the elements of the d-block , They are characterized by having energy levels completely filled by electrons , except the two outermost levels .

₂₁Sc : 1s² , 2s² , 2p⁶ , 3s² , 3p⁶ , 4s² , 3d¹

The inner transition elements

They are the elements of the f-block , They are characterized by having energy levels completely filled with electrons , except the three outermost levels .

₆₄Gd : 1s² , 2s² , 2p⁶ , 3s² , 3p⁶ , 4s² , 3d¹⁰ , 4p⁶ , 5s² , 4d¹⁰ , 5p⁶ , 6s² , 4f⁷, 5d¹ 

The elements configuration in the light of the modern periodic table

The periodic table shows a method to express the electronic configuration for the elements according to the nearest noble gas which precedes the element in the periodic table and this is considered the fourth method to the electronic configuration of elements .

Determination of the element location in the periodic table

Periodic number : It is determined by the greatest principal quantum number ( n ) in the electronic configuration of the element .

Group number and symbol : They are determined by the type of element 

The type of element is Representative , block ( s ) : The number of electrons of the last sublevel ( s ) , Group symbol is A .

The type of element is Representative , block ( p ) : The sum of the numbers of electrons in the last two sublevels ( s ) and ( p ) , Group symbol is A .

The type of element is noble gases , block ( p ) : Zero group ( the p-sublevel is completely filled by electrons ) .

The type of element is main transition , block ( d ) : The sum of the numbers of electrons in the last ( s ) sub-level and the penultimate ( d ) sublevel , Group symbol is B .

If the sub-level ( n − 1 ) d contains 6 , 7 , 8 electrons , the element is located in the group 8 , If the electronic configuration of the element ends with :

ns¹ , ( n− 1 ) d¹⁰ :  the electron is located in 1B group .

ns² , ( n− 1 ) d¹⁰ :  the electron is located in 2B group .

Ex : A representative element contains four principal energy levels , the last level has three unpaired electrons .

1. Its electronic configuration → [ ₁₈Ar ] , 4s² , 3d¹⁰ , 4p³
2. Its atomic number → 33
3. Number of full-filled orbitals in the outermost energy level → 1 orbital .
4. Number of valence electrons → 5 electrons .

The quantum numbers and principles of distributing electrons

Radius property , Ionization potential , Electron affinity & Electronegativity

Metallic & nonmetallic property , Acidic & basic property in the periodic table