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Yes, an atom can be unstable without being radioactive. Radioactivity refers to the spontaneous emission of radiation from the nucleus of an atom, which occurs in certain isotopes that are inherently unstable. However, there are other ways in which atoms can be unstable, even if they do not exhibit radioactivity.

One example is the concept of excited states. When an atom absorbs energy, typically through interactions with photons or collisions with other particles, its electrons can be promoted to higher energy levels or excited states. These excited states are temporary and unstable, and the electrons eventually return to their lower energy levels by emitting photons or transferring energy to other particles. This emission of energy is what we perceive as fluorescence or luminescence.

Additionally, certain atoms or ions can be unstable due to their electronic configuration. For example, atoms with partially filled or half-filled electron shells tend to be more reactive and can readily participate in chemical reactions to achieve a more stable electron configuration. These atoms may form bonds or undergo chemical transformations to achieve a more stable state.

Furthermore, nuclear instability can occur in isotopes that are not necessarily radioactive. Some isotopes may have nuclei that are unstable due to an imbalance between the number of protons and neutrons. These isotopes may undergo radioactive decay over extremely long timescales, known as long-lived radioactive isotopes.

In summary, while radioactivity is one form of instability in atoms, there are other mechanisms by which atoms can be unstable without exhibiting radioactivity. Excited states, electronic configuration, and nuclear instability (without immediate radioactive decay) are examples of such instability.

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