Sodium
Neon
the more metallic element will be the one below in group # or the one closer to the left in the period( the more metallic will be the one closer to the bottom left corner) since they have the lowest ionization energy and lower electronegativity
As you go from right to left in a period in the periodic table the ionization energy increases. While going from top to bottom in a group in the periodic table the ionization energy decreases .
Al
what is the reason for ionization energy across a period
Neon
There is no relation ship. They have the lowest ionization energies.
xenon increases from left to right across periods (first ionization energy)
123
the more metallic element will be the one below in group # or the one closer to the left in the period( the more metallic will be the one closer to the bottom left corner) since they have the lowest ionization energy and lower electronegativity
Chlorine has a higher ionization energy. Chlorine's tendency is to gain electrons, not lose them as metals usually do.
Ionization energy increases as you go across a period, but as you go down a group it decreases.
Helium (He) has the highest ionization energy, then Neon (Ne) Ionization energy increases as you go across a period from left to right. Ionization energy decreases as you go down a group. Therefore, elements in the upper right of the periodic table have the highest ionization energy.
Al
As you go from right to left in a period in the periodic table the ionization energy increases. While going from top to bottom in a group in the periodic table the ionization energy decreases .
Moving from left to right across a period, the first ionization energy increases because it becomes increasingly difficult to remove an electron.
Elements in the upper ionization energy range typically have a higher ionization energy due to increased attraction between the outermost electrons and the nucleus. These elements are often found in the right side of the periodic table, as they have a larger number of protons pulling on the electrons in the outer energy levels. Elements with high ionization energy tend to be nonmetals and have stable electron configurations.