So, since the O has more protons, it pulls the shared electrons closer to it and farther from H, increasing the negative charge of O and decreasing that of H?Bloodthunder said:Water is 2 hydrogen atoms covalently bonded to the oxygen atom, which in other words is just the sharing of a pair of electrons between them. However, the electronegativity of oxygen is greater than the electronegativity of hydrogen atom, so oxygen attracts the electrons closer towards itself, though not completely, resulting in a partial negative charge on the oxygen and partial positive charge on the hydrogen. So there is a dipole along the H-O bond, which makes it polar.
Sorry, I was ambiguous with this one. I was referring to hydrogen bonds. How does electronegativity cause hydrogen bonds?Bloodthunder said:Also, O is not magnetically attracted to H. In covalent bonding, due to the sharing of electrons, while each atom wants to complete it's stable outer structure (8 electrons for O, 2 for Hydrogen), it is also "unwilling" to give up the electron completely due to the strong electrostatic attraction between the positive nucleus and the negative electron.
TylerH said:So, since the O has more protons, it pulls the shared electrons closer to it and farther from H, increasing the negative charge of O and decreasing that of H?
TylerH said:Sorry, I was ambiguous with this one. I was referring to hydrogen bonds. How does electronegativity cause hydrogen bonds?
Electronegativity is a measure of an atom's ability to attract electrons in a chemical bond. It is a fundamental property of an element and is related to its position on the periodic table.
Electronegativity is measured on a scale from 0 to 4, with 0 being the lowest and 4 being the highest. The most commonly used scale is the Pauling scale, which is based on the work of Linus Pauling. This scale assigns an electronegativity value to each element based on its bonding behavior.
Electronegativity is important because it helps predict the type of chemical bond that will form between two atoms. It also explains the polarity of a molecule, which affects its physical and chemical properties. Electronegativity is also used in determining the reactivity and behavior of compounds.
The difference in electronegativity between two atoms in a bond determines the type of bond that will form. If the electronegativity difference is small, a nonpolar covalent bond will form, where electrons are shared equally. If the difference is large, an ionic bond will form, where one atom completely transfers its electrons to the other. In between are polar covalent bonds, where electrons are shared unequally and one atom has a partial negative charge while the other has a partial positive charge. The larger the difference in electronegativity, the stronger the bond will be.
Electron affinity is the energy released when an atom gains an electron, while electronegativity is a measure of the tendency to gain electrons. In other words, electronegativity is a relative measure, while electron affinity is an absolute measure. Additionally, electronegativity takes into account the overall bonding behavior of an element, while electron affinity focuses only on the addition of a single electron.