This is strictly true for all elements in the s and p blocks. Elements in each column have the same valence shell electron configurations, and the elements have some similar chemical properties. The same concept applies to the other columns of the periodic table. The organization of electrons in atoms explains not only the shape of the periodic table, but also the fact that elements in the same column of the periodic table have similar chemistry. Because much of the chemistry of an element is influenced by valence electrons, we would expect that these elements would have similar chemistry- and they do. They all have a similar electron configuration in their valence shells: a single s electron. The second column on the right has the different corresponding electron configurations for the specified element in the rows underneath. The first column on the left has various elements in the rows underneath. Their electron configurations (abbreviated for the larger atoms) are as follows, with the valence shell electron configuration highlighted: Table with two columns and 6 rows. For example, take the elements in the first column of the periodic table: H, Li, Na, K, Rb, and Cs. If we look at just the valence shell's electron configuration, we find that in each column, the valence shell's electron configuration is the same. (The inner electrons are called core electrons.) The valence electrons largely control the chemistry of an atom. The electrons in the highest-numbered shell, plus any electrons in the last unfilled subshell, are called valence electrons the highest-numbered shell is called the valence shell. But for most of the transition and inner transition elements, the valence electrons are the electrons present in the shells outside the noble gas core. S block is blue, d block is green, p block is red and f block is orange. Valence electrons: For main group elements (i.e s-block and p-block elements), the valence electrons are the electrons present in the outermost orbit. Empty periodic table, separated into 4 different colored blocks. The periodic table is separated into blocks depending on which subshell is being filled for the atoms that belong in that section.
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