atomic radius decreases from bottom to top of the periodic table.
The radius increases as the number of protons and neutrons increases.
Down a group, the atomic radius increases as the number of shells or energy levels increases.
Generally the atomic radius increase down in a group.
The atomic radius decreases.
DECREASES (apex)
The atomic radius decreases.
Examples for the groups I an II of the periodic table:- the atomic radius grows from top to bottom- the electronegativity descends from top to bottom
The atomic radius decreases.
It tends to increaseThe atomic radius increases down the group
Down a group, the atomic radius increases as the number of shells or energy levels increases.
The atomic radius decreases.
Examples for the groups I an II of the periodic table:- the atomic radius grows from top to bottom- the electronegativity descends from top to bottom
The atomic radius decreases.
Atomic radius increases down the group. So larger atomic radius are present at the bottom.
It tends to increaseThe atomic radius increases down the group
Down a group, the atomic radius increases as the number of shells or energy levels increases.
As you move across the periodic table from left to right (across a period), the atomic radius of the elements tends to decrease.
The atomic radius decrease from left to right in the periodic table.
Yes. The atomic radius increases down the group. This is because number of shells increases down the group.
The atomic radius decrease, with several exceptions in periods 6 and 5.
Francium has the largest atomic radius in Group 1 of the Periodic Table.
As a general rule, when moving left to right on the periodic table the atomic radius decreases due to increasing electromagnetic attraction of the nucleus to the electrons.