![]() 8.6.1: Properties of the Group 13 Elements and Boron Chemistry.8.6: Group 13 (and a note on the post-transition metals).8.5.2: Alkaline Earth Metals' Chemical Properties.8.5.1: Preparation and General Properties of the Alkaline Earth Elements.8.5: Group 2, The Alkaline Earth Metals.8.3.1: Alkali Metals' Chemical Properties.8.2: What are the main group elements and why should anyone care about them?.8.1.4.3: Pourbaix Diagrams are Redox Phase Diagrams that Summarize the most stable form of an element at a given pH and solution potential.8.1.4.2: Frost Diagrams show how stable element's redox states are relative to the free element.8.1.4.1: Latimer Diagrams summarize elements' redox properties on a single line.8.1.4: As may be seen from considering an element's redox diagrams, main group elements (aside from the noble gases) generally are more oxidizing towards the upper left of the periodic table and more reducing towards the lower right of the periodic table.8.1.3: Ionization energy roughly increases towards the upper left of the periodic table but is also influenced by orbital energy and pairing energy effects.8.1.2: Electronegativity increases and radius decreases towards the upper left of the periodic table, with electron withdrawing substituents, and with oxidation state.8.1.1.2: There are qualitative differences between the chemistry of the elements in the first two rows and those in the rest of the periodic table.8.1.1.1: The metal-nonmetal-metalloid distinction and the metal-nonmetal "line" are useful for thinking about trends in elements' physical properties.8.1.1: The Periodic Table is an Organizing Concept in Main Group Chemistry.8.1: General Trends in Main Group Chemistry.
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