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radius of the Na* cation is much different than that of the Kication. Choose the one answer that properly identifies their size e and justifies its fundamental cause. oth are in the same group, but the potassium cation has more core shells with filled orbitals. That means some of the electrons of this ion are more dista cleus, which results in a bigger radius h are in the same period, but sodium cation has fewer energy levels with filled orbitals. That means the outermost electrons of this ion will be farther fr Jeus, so it has the smaller radius are in the same group, but potassium cation has more energy levels with filled orbitals. That means some of the electrons of this ion are more dista eus, so this ion has a smaller radius. are in the same group, but potassium cation has more protons That means its electrons are pulled with greater strength towards the nucleus, so it er radius ire in the same group, but the potassium cation has a lower nuclear effective charge. That means the electrons of this ion are more strongly attra is, hence pe electronic cloud is more compressed, which results in a smaller size.
Marks The ionic radius of the Na* cation is much different than that of the K* cation. Choose the one answer that properly identifies their size difference and justifies its fundamental cause. Оа. Both are in the same group, but the potassium cation has more core shells with filled orbitals That means some of the electrons of this ion are more distant from the nucleus, which results in a bigger radius Ob Both are in the same period, but sodium cation has fewer energy levels with filled orbitals. That means the outermost electrons of this ion will be farther from its nucleus, so it has the smaller radius OC. Both are in the same group, but potassium cation has more energy levels with filled orbitals. That means some of the electrons of this ion are more distant from the nucleus, so this ion has a smaller radius Od Both are in the same group, but potassium cation has more protons. That means its electrons are pulled with greater strength towards the nucleus, so it has the smaller radius Both are in the same group, but the potassium cation has a lower nuclear effective charge. That means the electrons of this ion are more strongly attracted to its nucleus, hence the electronic cloud is more compressed, which results in a smaller size