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- Covalent Bonds
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Figure 6. Electrons typically fill the outermost shells of elements. They can do this by either giving or receiving electrons from other elements 5 . 1.2 Reading Resource #3: Ionic Bonds Ionic, covalent, hydrogen bonds, and van der Waals interactions are the four different kinds of bonds and interactions. Strong interactions like ionic and covalent bonds need more energy to break apart. A positive ion is created when an element donates an electron from its outer shell, as in the case of the sodium atom in the preceding example. Now that the electron has been accepted, the element is negatively charged. These ions stick together and create an ionic bond, or bond between ions, as a result of positive and negative charges' attraction to one another. The electron from one element stays primarily with the other element as the elements bond together. The sodium and chloride ions attract one another in a lattice of ions with a net zero charge when Na+ and Cl- ions combine to form NaCl. An electron from a sodium atom remains with the other seven from the chlorine atom during this process. Covalent Bonds A covalent bond is another kind of powerful chemical bond made up of two or more atoms. These bonds, which are the strongest and most prevalent type of chemical bond in living organisms, are created when an electron is shared between two elements. The components that make up the biological molecules in our cells form covalent bonds with one another. Covalent bonds do not dissociate in water like ionic bonds do. Covalent bonds hold the hydrogen and oxygen atoms that make up water molecules together. The outer shell of the hydrogen atom and the unfinished outer shell of the oxygen atom are where the hydrogen atom's electron spends most of its time. To completely fill the outer shell of an oxygen atom, two electrons from two hydrogen atoms are needed, hence the subscript “2” in H 2 O. The electrons are shared between the atoms, dividing their time between them to “fill” the outer shell of each. All of the atoms involved in this sharing are in a lower energy state than they would be in if their outer shells were empty. Covalent bonds can be either polar or nonpolar. Between two atoms of the same element or between two different elements that share the same number of electrons, nonpolar covalent bonds can form. For instance, two oxygen atoms can join forces to fill each other's outer shells. This association is nonpolar because each oxygen atom will receive an equal number of electrons. Due to the fact that oxygen needs two shared electrons to completely fill its outermost shell, two covalent bonds form between the two oxygen atoms. Nitrogen atoms 5 Fowler, S., Roush, R. & Wise, J. (2017) Concepts in Biology, Chapter 2, -P. 31-32. OpenStax, https://openstax.org/details/books/concepts-biology 20 will form three covalent bonds (also called triple covalent) between two atoms of nitrogen because each nitrogen atom needs three electrons to fill its outermost shell. Another example of a nonpolar covalent bond is found in the methane (CH 4 ) molecule. The outermost shell of the carbon atom holds four electrons, and it requires another four to fill it. These four come from four hydrogen atoms, with each atom contributing one. Each of these elements shares an equal number of electrons to form four nonpolar covalent bonds (Figure 7). In a polar covalent bond, the electrons shared by the atoms spend more time closer to one nucleus than to the other nucleus. Because of the unequal distribution of electrons between the different nuclei, a slightly positive (δ+) or slightly negative (δ–) charge develops. Water contains polar covalent bonds, which are covalent bonds between atoms of hydrogen and oxygen. The oxygen nucleus has a slight negative charge because the shared electrons spend more time there than they do near the hydrogen nuclei, which have a slight positive charge. Yüklə 6,24 Mb. Dostları ilə paylaş:
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