Thursday, September 26, 2019
Critical Thinking Assignment Essay Example | Topics and Well Written Essays - 500 words
Critical Thinking Assignment - Essay Example Moreover, elements in the identical column share similar traits that distinguish them ((John 45). They are categorized as a family or a group. However, these elements exhibit differences because of variation in the proportion of neutrons, electrons, protons, atomic mass and isotopes. Indeed, the bonds can be covalent, polar or ionic. Ionic compounds are compounds with two or more ions held closely by electrical attraction. They contain cation (+) and the anion (-) charges. Most Ionic compounds dissolve in water. Some ionic compounds fail to disband in water. The ionic compounds that contain highly polarized ions often do not dissolve in water. Moreover, ionic compounds form when non-metals bond to metals. When this happens, the compounds react rather than dissolve in water (John 59). For instance when sodium (an ionic compound) is dissolved in water a chemical reaction is observed: (Na2O(s) + aq ââ â 2Na+(aq) + O2âËâ(aq). A bond is covalent if its atoms share electrons instead of transferring them from one electron to another. Covalent bonds exist where two non-metals bond (John 70). Covalent bonds have lower electro negativity thus they share electrons when bonding. Most covalent bonds fail to dissolve in water. This is because they are mainly non-polar while water is polarized. Compounds dissolve in solutions that harbor similar properties in terms of polarity. Moreover, covalent bonds are held by strong covalent bonds that cannot pull apart in water. However, there are unique cases where covalent bonds dissolve in water ((John 71). The chemical formula of water is H2O. That is one molecule of oxygen for two hydrogen atoms, which are bonded covalently to form water. When chemical compounds are introduced in water, reactions occur because of the differences in polarity and electro negativity of water in relation to other substances (John 60). Compounds such as sulfur, nitrogen and chlorine react with H20 to release gases and metal oxides.
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