Atoms of elements at the top of a group on the periodic table are smaller than the atoms of elements at the bottom of the group. How does this help explain the difference in the reactivity of metals within a group? The valence electrons of the larger atoms are farther from the nucleus and are easier to remove, so the metals near the top are more reactive than those at the bottom. The valence electrons of the larger atoms are farther from the nucleus and are harder to remove, so the metals near the bottom are more reactive than those at the top. The valence electrons of the larger atoms are farther from the nucleus and are harder to remove, so the metals near the top are more reactive than those at the bottom. The valence electrons of the larger atoms are farther from the nucleus and are easier to remove, so the metals near the bottom are more reactive than those at the top.
Answers
The metals of the periodic table react by losing electrons. The total number of electrons present in the outermost shell of the atoms decide about their reactivity.
An increase in reactivity can be seen while going down the group because the number of electron shells increase resulting in the reduction of attraction of the electrons to the nucleus.
The metals of the periodic table react by losing electrons. The total number of electrons present in the outermost shell of the atoms decide about their reactivity.
An increase in reactivity can be seen while going down the group because the number of electron shells increase resulting in the reduction of attraction of the electrons to the nucleus.
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