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The stability of an element is determined by several factors, including its atomic number, mass number, and the arrangement of its subatomic particles (protons, neutrons, and electrons). When elements have the same atomic number but different mass numbers or vice versa, it implies a difference in the number of neutrons in the nucleus.

The stability of an element depends on the balance between the attractive and repulsive forces within the atomic nucleus. The stability of a nucleus is influenced by the ratio of neutrons to protons, known as the neutron-to-proton ratio. Elements strive to achieve a stable neutron-to-proton ratio to minimize the repulsive forces between protons in the nucleus.

For elements with the same atomic number but different mass numbers (different number of neutrons), the stability can vary. As the neutron-to-proton ratio deviates from the stability range, the nucleus may become unstable and undergo radioactive decay. Elements with too many or too few neutrons relative to protons may exhibit radioactive properties, such as undergoing alpha decay, beta decay, or other types of radioactive decay, in an attempt to attain a more stable configuration.

On the other hand, when elements have the same mass number (same number of protons and neutrons) but different atomic numbers, it implies a difference in the number of protons, which determines the chemical identity of an element. Elements with different atomic numbers have different electron configurations, resulting in variations in their chemical properties. These differences in electron configurations lead to distinct chemical behaviors, such as variations in reactivity, bonding characteristics, and valence electron arrangements.

In summary, the stability of an element is influenced by its neutron-to-proton ratio, which is determined by the mass number, and its chemical properties are determined by the atomic number and electron configuration. Therefore, elements with the same atomic number but different mass numbers or vice versa can exhibit different stabilities or chemical behaviors due to variations in their nuclear and electronic structures.

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