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Group 18 noble gases typically have positive electron affinity values because they possess a complete outer electron shell, making them energetically stable and less inclined to attract additional electrons. However, when an electron is added to a noble gas, it can lead to slight destabilization due to electron-electron repulsion in the resulting anion. As a result, the process of adding an electron is often endothermic, resulting in positive electron affinity values for these elements.
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Why group 8 have positive electron affinity value?
Group 8 elements, also known as noble gases, have positive electron affinity values because they possess a complete valence shell, making them stable and largely unreactive. When an electron is added to these elements, the resulting anion is less stable than the neutral atom, leading to a positive energy change. Consequently, instead of releasing energy when gaining an electron, they require energy input, resulting in positive electron affinity values.
Why noble gases have positive electron affinity?
Noble gases typically have zero or very low electron affinity because their outer electron shells are already full, making them stable and non-reactive. However, in specific cases, certain noble gases can exhibit a slight positive electron affinity due to the potential for electron-electron repulsion when an additional electron is added to the already filled shell. This results in a situation where the energy required to add an electron exceeds any potential stabilization, leading to a positive value for electron affinity. Nonetheless, this phenomenon is rare and not characteristic of all noble gases.
Why the value of electron affinity is positive for noble gases?
Noble gases have completely filled orbitals / energy levels. They generally have 8 valence electrons (helium has only 2) and have stable electronic configuration. They will not accept any more electrons and hence they have positive electron affinity.
Do noble gases have electron affinity?
The valence electron shell of noble gases id completely filled; as a consequence the affinity for electrons and the chemical reactivity are at an extremely low level.
What group of elements give off the most energy when they gain an electrons?
Group 8A, the noble gases because they have high electron affinity.
Why are electron affinity values for the noble gases endothermic?
Electron affinity values for noble gases are endothermic because these elements have stable electron configurations and do not readily accept additional electrons. This makes it energetically unfavorable for them to gain an extra electron, resulting in a positive electron affinity value.
Why group 8 have positive electron affinity value?
Group 8 elements, also known as noble gases, have positive electron affinity values because they possess a complete valence shell, making them stable and largely unreactive. When an electron is added to these elements, the resulting anion is less stable than the neutral atom, leading to a positive energy change. Consequently, instead of releasing energy when gaining an electron, they require energy input, resulting in positive electron affinity values.
Why the value of electron affinity is positive for noble gases?
Noble gases have completely filled orbitals / energy levels. They generally have 8 valence electrons (helium has only 2) and have stable electronic configuration. They will not accept any more electrons and hence they have positive electron affinity.
Which element would most likely have a positive electron affinity between Na Al Rb and Ar?
Chlorine (Cl) would most likely have a positive electron affinity. Typically, elements with high electron affinities are found on the right side of the periodic table, closer to the noble gases. Among the choices given, Argon (Ar) is a noble gas and has a positive electron affinity.
Do noble gases have electron affinity?
The valence electron shell of noble gases id completely filled; as a consequence the affinity for electrons and the chemical reactivity are at an extremely low level.
What group of elements give off the most energy when they gain an electrons?
Group 8A, the noble gases because they have high electron affinity.
Why don't the noble gases have an electron affinity value?
Noble gases have a full valence shell of electrons, so they are stable and do not readily gain or lose electrons. This stability leads to very low electron affinity values for noble gases, as they do not have a strong tendency to attract additional electrons to achieve a more stable electron configuration.
Why are the noble gases not included in electron affinity?
Noble gases are not included in electron affinity because they are already stable with a full outer electron shell and do not readily gain or lose electrons. Therefore, they do not have a strong tendency to attract additional electrons to achieve a more stable electron configuration.
What energy changes when a neutral atom gains an electron?
When an electron is acquired by a neutral atom, the energy change is called electron affinity. Neutral atoms with an s2p6 electron configuration in the highest energy level are best classified as gases.
Would you expect the noble gas neon to have a negative electron affinity?
No, neon is not expected to have a negative electron affinity. Noble gases, including neon, have a full valence shell, making them stable and chemically inert. As a result, they do not tend to gain electrons, and any addition of an electron would require energy rather than release it, leading to a positive or zero electron affinity rather than a negative one.
What has the highest and lowest electron affinity Na Mg Al Si P S Cl Ar?
Among the elements listed: Highest electron affinity: Cl (Chlorine) with an electron affinity of -349 kJ/mol. Lowest electron affinity: Ar (Argon) with an electron affinity of 0 kJ/mol (inerts gases like Ar typically have low electron affinities).
Definition of electron affinity?
The energy change that occurs when an electron is added to a neutral atom. This is usually exothermic. Noble Gases are excluded from this. Equation: X(element)+e-(electron)---------> X-1+ energy
