Chapter 5. Periodic Classification of Elements

• The classification of elements mean keeping them systemically into various groups on the basis of their properties. 
• First time, elements are classified into metals and non-metals.  

Dobereiner’s Triads: 

Dobereiner made a triads of three elements to arrange the elements with similar properties into groups. the three elements in a triad were written in the order of increasing atomic masses; the atomic mass of the middle element was roughly the average of the atomic masses of the other two elements. 

For example: lithium (Li), sodium (Na) and potassium (K). 

According to this law, when three elements in a triad were written in order of increasing atomic masses, the atomic mass of  the middle element was roughly the average of the atomic masses of the other two elements. Such a triad is known as Dobereiner's triads. 

Newland’s Law of Octaves: 

Every eighth element had properties similar to that of the first. This law is known as Newland’s Law of Octaves.

Limitation of Newland’s Law of octaves:

(i) It was found that the law of octaves was applicable only up to calcium.

(ii) No more elements would be discovered in the future instead of 56 known elements, it was assumed by Newlands. But did not match the properties of new discovered elements to this law.

(iii) Newland’s Law of Octaves worked well with lighter elements only.

Mendeleev's Periodic Table

• When Mendeleev started his work, 63 elements were known. He examined the relationship between the atomic masses of the elements and their physical and chemical properties. 
• Among chemical properties, Mendeleev concentrated on the compounds formed by elements with oxygen and hydrogen. 
• He selected hydrogen and oxygen as they are very reactive and formed compounds with most elements. 
• The formulae of the hydrides and oxides formed by an element were treated as one of the basic properties of an element for its classification.

Mendeleev’s Periodic Table contains vertical columns called ‘groups’
and horizontal rows called ‘periods’

Achievements of Mendeleev’s Periodic table:

Achievements of Mendeleev’s Periodic table are as follows;

(i) There could be possible to classify all elements.

(ii) He prepared this periodic table on the basis of atomic masses of the elements.

(iii) Mendeleev left some gaps in his periodic table which was filled later.

(iv) When the noble gases were discovered, they could be placed in a new group without disturbing the existing order.

The periodic law of Mendeleev's Periodic table.

The physical and chemical properties of elements are the periodic function of their atomic masses in Mendeleev's Periodic table.

Limitations of Mendeleev’s Classification:

(i) No fixed position can be given to hydrogen in the Periodic
Mendeleev's Table.

(ii) There are no any place for isotopes. 

(iii) It was not possible to predict how many elements could be discovered between two elements.

Chapter 5. Periodic Classification of Elements

Modern Periodic Table:

Atomic number of an element is more fundamental properties than its atomic masses. 

In 1913, Henry Moseley showed that the atomic number of an element is a more fundamental property than its atomic mass as described below. Accordingly, Mendeleev’s Periodic Law was modified and atomic number was adopted as the basis of Modern Periodic Table. 

The atomic number gives us the number of protons in the nucleus of an atom and this number increases by one in going from one element to the next. Elements, when arranged in order of increasing atomic number Z, lead us to the classification known as the Modern Periodic Table. 

Modern Periodic Law: 

‘Properties of elements are a periodic function of their atomic number in modern periodic table.’ This law is known as modern periodic law. 

Position of Elements in the Modern Periodic Table​ :

The Modern Periodic Table has 18 vertical columns known as ‘groups’
and 7 horizontal rows known as ‘periods’.

Distinguish between Modern and Mendeleev’s Periodic table.

The Position of Noble Gases: 

Noble gases are placed in a separates group.  

There are following reasons to place the noble gases  in a separate group:

(i) Isotopes were discovered long after Mendeleev's periodic table, but they could be placed in without changing the previous table's setting.  

(ii) These all are similar properties  and they are very unreactive becausetheir valency is zero.  

(iii) Their octaves are completed and they do not make any partnership to any element. They are also monoatomic. 

Groups:

Groups in the Periodic Table signify an identical outershell electronic configuration. On the other hand, the number of shells increases as we go down the group.

Elements have same valence electrons in a same group.

Periods: 

When we move forward in a period then we see that:

(i) These elements do not have the same number of valence electrons, but they contain the same number of shells.

(ii) The number of valence shell electrons increases by one unit, as the atomic number increases by one unit on moving from left to right in a period.

(iii) Each period marks a new electronic shell getting filled.

(iv) The maximum number of electrons that can be accommodated in a shell depends on the formula 2n2 where ‘n’ is the number of the given shell from the nucleus.

There are only 8 elements in 2^nd and 3^rd  periods as L and M shell are filled which can not be filled more than 8 electrons. 

Position of elements in Modern Periodic Table:

The position of an element in the Periodic Table tells us about its chemical reactivity. As you have learnt, the valence electrons determine the kind and number of bonds formed by an element.

Valency : As you know, the valency of an element is determined by the
number of valence electrons present in the outermost shell of its atom.

Chapter 5. Periodic Classification of Elements

Modern Periodic Table:

Atomic number of an element is more fundamental properties than its atomic masses. 

In 1913, Henry Moseley showed that the atomic number of an element is a more fundamental property than its atomic mass as described below. Accordingly, Mendeleev’s Periodic Law was modified and atomic number was adopted as the basis of Modern Periodic Table. 

The atomic number gives us the number of protons in the nucleus of an atom and this number increases by one in going from one element to the next. Elements, when arranged in order of increasing atomic number Z, lead us to the classification known as the Modern Periodic Table. 

Modern Periodic Law: 

‘Properties of elements are a periodic function of their atomic number in modern periodic table.’ This law is known as modern periodic law. 

Position of Elements in the Modern Periodic Table​ :

The Modern Periodic Table has 18 vertical columns known as ‘groups’
and 7 horizontal rows known as ‘periods’.

Distinguish between Modern and Mendeleev’s Periodic table.

The Position of Noble Gases: 

Noble gases are placed in a separates group.  

There are following reasons to place the noble gases  in a separate group:

(i) Isotopes were discovered long after Mendeleev's periodic table, but they could be placed in without changing the previous table's setting.  

(ii) These all are similar properties  and they are very unreactive becausetheir valency is zero.  

(iii) Their octaves are completed and they do not make any partnership to any element. They are also monoatomic. 

Groups:

Groups in the Periodic Table signify an identical outershell electronic configuration. On the other hand, the number of shells increases as we go down the group.

Elements have same valence electrons in a same group.

Periods: 

When we move forward in a period then we see that:

(i) These elements do not have the same number of valence electrons, but they contain the same number of shells.

(ii) The number of valence shell electrons increases by one unit, as the atomic number increases by one unit on moving from left to right in a period.

(iii) Each period marks a new electronic shell getting filled.

(iv) The maximum number of electrons that can be accommodated in a shell depends on the formula 2n2 where ‘n’ is the number of the given shell from the nucleus.

There are only 8 elements in 2^nd and 3^rd  periods as L and M shell are filled which can not be filled more than 8 electrons. 

Position of elements in Modern Periodic Table:

The position of an element in the Periodic Table tells us about its chemical reactivity. As you have learnt, the valence electrons determine the kind and number of bonds formed by an element.

Valency : As you know, the valency of an element is determined by the
number of valence electrons present in the outermost shell of its atom.