The symbol for the most stable ion of sulfur is S2-.
The element that fits this description is sulfur. Its most stable ion is the sulfide ion (S2-), which contains 18 electrons. Sulfur belongs to the same group as oxygen on the periodic table (Group 16 or 6A), known as the chalcogens.
Sulfur ion typically has a 2- charge (S^2-) due to gaining two electrons to achieve a stable electron configuration. Chlorine ion usually has a 1- charge (Cl^-) by gaining one electron to reach a stable electron configuration. Energetically, sulfur ion tends to form compounds with metals in higher oxidation states compared to chlorine ion.
Sulfur most commonly forms a charge of -2 by gaining two electrons to achieve a stable electron configuration.
When a sulfur atom gains two electrons to become a sulfide ion, it achieves a stable electron configuration with a full valence shell. This results in the formation of a negatively charged ion with a 2- charge. A sulfide ion forms due to electron transfer, creating a more stable configuration for the sulfur atom.
The symbol for the most stable ion of sulfur is S2-.
The element that fits this description is sulfur. Its most stable ion is the sulfide ion (S2-), which contains 18 electrons. Sulfur belongs to the same group as oxygen on the periodic table (Group 16 or 6A), known as the chalcogens.
The stable ion of sulfur typically has a charge of -2, as sulfur usually gains two electrons to reach a full octet and achieve stability.
Sulfur ion typically has a 2- charge (S^2-) due to gaining two electrons to achieve a stable electron configuration. Chlorine ion usually has a 1- charge (Cl^-) by gaining one electron to reach a stable electron configuration. Energetically, sulfur ion tends to form compounds with metals in higher oxidation states compared to chlorine ion.
The most common ion formed from a single sulfur atom is a sulfide ion, with a charge of -2.
Sulfur most commonly forms a charge of -2 by gaining two electrons to achieve a stable electron configuration.
When a sulfur atom gains two electrons to become a sulfide ion, it achieves a stable electron configuration with a full valence shell. This results in the formation of a negatively charged ion with a 2- charge. A sulfide ion forms due to electron transfer, creating a more stable configuration for the sulfur atom.
The most common ion formed by sulfur is the sulfide ion (S2-).
Sulfur gains 2 electrons to become stable, forming the sulfide ion (S2-). This allows sulfur to achieve a full outer electron shell, following the octet rule.
The ion of sulfur, S²-, is formed when sulfur gains two electrons. This results in the sulfur atom achieving a full outer electron shell, which is the stable electron configuration of the noble gas neon.
The most probable charge of an ion in the sulfur group (Group 6A) is -2. This is because sulfur typically gains two electrons to achieve a stable electron configuration, resulting in the Sulfide ion (S2-).
Sulfur typically forms ions by gaining two electrons to achieve a stable electron configuration. This results in the formation of the sulfide ion, S^2-.