What happens to the atomic size when the principal quantum number n increases?

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Multiple Choice

What happens to the atomic size when the principal quantum number n increases?

Explanation:
The principal quantum number n sets the shell that the outer electrons occupy. When n increases, electrons reside in shells farther from the nucleus, so the average distance from the nucleus grows and the atomic radius becomes larger. In a simple hydrogen-like picture, the radius scales roughly with n^2, showing this direct link between higher n and a bigger size. In real atoms, inner electrons shield outer ones and alter the effective nuclear charge, but the fundamental idea holds: increasing n pushes the outer electrons outward, increasing atomic size.

The principal quantum number n sets the shell that the outer electrons occupy. When n increases, electrons reside in shells farther from the nucleus, so the average distance from the nucleus grows and the atomic radius becomes larger. In a simple hydrogen-like picture, the radius scales roughly with n^2, showing this direct link between higher n and a bigger size. In real atoms, inner electrons shield outer ones and alter the effective nuclear charge, but the fundamental idea holds: increasing n pushes the outer electrons outward, increasing atomic size.

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