An element having electronic configuration is `1s^(2) 2s^(2) 2p^(6) 3s^(2) 3p^(6) 4s^(1)` will form:

An element X with the electronic configuration 1s^(2) 2s^(2) 2p^(6) 3s^(2) would be expected to form the chloride with the formula ________.

The element 'X' has electronic configuration is 1s^2 , 2s^2 , 2p^6 , 3s^2 , 3p^6 , 4s^2 The element 'X' is

The element having electronic configuration [Ar], 3d^5 , 4s^2 belongs to

Assign the position of the element having outer electronic configuration (n - 2) f^7 (n - 1) d^1 ns^2 for n = 6 in P.T.

Magnesium reacts with an element (X) to form an ionic compound. If the ground state electronic configuration of (X) is 1s^2 2s^2 2p^3 , the simplest formula for this compound is

The elements 'X' has electronic configuration 4s^2 , 4p^1 . The element 'X' is

The electronic configuration of elements are given below. A = 1s^2 , 2s^2 , 2p^6 , 3s^2 , 3p^6 , 4s^2 B = 1s^2 , 2s^2 , 2p^6 , 3s^2 , 3p^5 The formula of ionic compound that could be formed between two elements is

Carbon (electronic configuration 1s ^(2) 2s^(2) 2p^(2) ) exhibits tetravalency . This is due to ______.

The electronic configuration of some elements are given below: 1s^2b.1s^(2)2s^(2)2p^6 In which group and period of the periodic table they are placed?

If the valence shell electronic configuration of an element is 3s^2 3p^1 in which block of periodic table is it placed ?