Greater the negative value greater is the electron affinity. When an electron is added to a neutral atom, energy is released. These values are represented with a negative sign. Electron Affinity: Abundance in the Ocean: Electron Configuration: Abundance in the Sun: Electronegativity: Abundance in the Universe: Half Life: Atomic Mass: Heat of Fusion: Atomic Number: Heat of Vaporization: Atomic Radius: Ionization Energies: Boiling Point: Melting Point: Since this is a released energy, it is a negative entity.This applies only to first electron affinity, however, the second electron affinity is not necessary a released energy, most of the times for an atom to attract a second electron, it requires energy and therefore, it is a positive entity. To use electron affinities properly, it is essential to keep track of sign. Electron affinity is related to electronegativity of elements.Simply speaking, the greater the affinity of electrons, the more eagerly the atoms of a given element join electrons to form ions (anions). For some elements, however, this is … As a result of such attachment, a negative ion (anion) is formed. The general trend for electron affinity down the group is that it decreases because of the increase in atomic radius.The exception of $\ce{Cl}>\ce{F}$, I can understand is because fluorine has a high electron density and it is unfavourable to add more electrons as it would only increase the electron -electron repulsion. In smaller atoms, the newly added electron is attracted strongly by the nucleus and hence their electron affinity values are higher. Here are the electron affinities of the 16th and 17th groups. The electronic affinity is amount of energy, that is released during the attachment of the electron to the neutral atom. While ionization energy is the energy change incurred from losing an electron, electron affinity is the energy change incurred from gaining an electron. Thus, large electron affinity value indicates the tendency of forming stable negative ions and low electron affinity values indicate tendency to form positive ions. Electron Affinity of Chemical Elements. C + e – → C – – ∆H = Affinity = 153.9 kJ/mol. Electron affinity by definition is the amount of energy released when an atom attracts an electron. Cl (g) + e-→Cl-(g) For most atoms, this is a negative quantity - or energy is released. In chemistry and atomic physics, the electron affinity of an atom or molecule is defined as:the change in energy (in kJ/mole) of a neutral atom or molecule (in the gaseous phase) when an electron is added to the atom to form a negative ion. Electron affinity of a molecular entity is the measure of energy difference between its standard form and its anionic form with one additional electron. 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