The group number of an element in the periodic table can provide information about the charge of an ion formed by an element. Valence electrons are involved in the formation of ions. The relationship between group number and ions formed by elements is based on the number of valence electrons in the element.
The group number of an s-block element in the periodic table corresponds to its number of valence electrons.
Whereas in the case of p-block elements, the number of valence electrons is equal to Group number minus 10.
Some elements tend to lose electrons. Why? Elements tend to achieve a stable electron configuration such as the noble gases. Remember that the 2 or 8 electron configuration is the most stable configuration. Elements with 1-3 electrons in their valence shell tend to lose those electrons and form +1, +2, +3 ions respectively. Elements with 5-7 electrons in their valence shell tend to gain 3, 2, 1 electrons respectively and form negatively charged ions with -3, -2, -1 charges respectively. Elements with 4 valence electrons can lose 4 electrons to form +4 ions. They can also gain 4 electrons and form -4 ions.
Group 1 elements such as lithium (Li), sodium (Na), and potassium (K) have one valence electron and belong to s block. S block elements lose electrons equal to their group number. They tend to lose this electron to form a +1 ion, also known as a mono-valent cation. For example: Lithium (Li) loses one valence electron to form Li⁺. Sodium (Na) loses one valence electron to form Na⁺. Potassium (K) loses one valence electron to form K⁺. These elements after losing an electron acquire 8 electron configuration of a noble gas.
Group 2 elements such as beryllium (Be), magnesium (Mg), and calcium (Ca) have two valence electrons and are s block element. They tend to lose these two electrons to form +2 ions, also called divalent cations. For example: Beryllium (Be) loses two valence electrons to form Be²⁺. Magnesium (Mg) loses two valence electrons to form Mg²⁺. Calcium (Ca) loses two valence electrons to form Ca²⁺.
Magnesium will lose 2 electrons to achieve stable configuration and this no. is same as it group number i.e., 2
Mg²⁺ = 1s², 2s², 2p⁶
Some elements tend to gain electrons to achieve noble gas configuration. For example,
Group 17 elements such as fluorine (F), chlorine (Cl), and bromine (Br) have seven valence electrons. They tend to gain one electron to reach a stable octet and form -1 ion, also called a monovalent anion. For example: Fluorine (F) gains one electron to form F⁻. Chlorine (Cl) gains one electron to form Cl⁻. Bromine (Br) gains one electron to form Br⁻.
Group 16 elements such as oxygen (O), sulfur (S), and selenium (Se) have six valence electrons. They tend to gain two electrons to reach a stable octet and form a -2 ion, also called a divalent anion. For example: Oxygen (O) gains two electrons to form O²⁻. Sulfur (S) gains two electrons to form S²⁻.
Group 18 elements such as helium (He), neon (Ne), and argon (Ar) have full valence electron shells (except helium, which has only two valence electrons). They are chemically stable and do not form ions under normal conditions. Noble gases are known for their low reactivity due to their stable electronic configuration.
Find out the position of the following elements in the periodic table from the electronic configuration:
Nitrogen (atomic number: 7)
Oxygen (atomic number: 8)
Write electronic configuration of the element. Identify the valence shell configuration, co-efficient of s or p sub-shell represents period number and total number of electrons in valence shell is equal to the group number.
a) Electronic configuration of N = 1s², 2s², 2p³
b) Electronic configuration of oxygen = 1s², 2s², 2p⁴