![]() The modern statement of this relationship, the periodic law, is as follows: the properties of the elements are periodic functions of their atomic numbers. ![]() ![]() (Credit a: modification of work by Serge Lachinov via OpenStax credit b: modification of work by “Den fjättrade ankan”/Wikimedia Commons) CC BY 4.0īy the 20th century, it became apparent that the periodic relationship involved atomic numbers rather than atomic masses. (a) Dimitri Mendeleev is widely credited with creating (b) the first periodic table of the elements. Although Mendeleev and Meyer had a long dispute over priority, Mendeleev’s contributions to the development of the periodic table are now more widely recognized ( Figure 1). The discoveries of gallium (1875) and germanium (1886) provided great support for Mendeleev’s work. But Mendeleev went one step further than Meyer: He used his table to predict the existence of elements that would have the properties similar to aluminum and silicon, but were yet unknown. Both published tables with the elements arranged according to increasing atomic mass. Fluorine (F), chlorine (Cl), bromine (Br), and iodine (I) also exhibit similar properties to each other, but these properties are drastically different from those of any of the elements above.ĭimitri Mendeleev in Russia (1869) and Lothar Meyer in Germany (1870) independently recognized that there was a periodic relationship among the properties of the elements known at that time. For example: Li, Na, and K are much more reactive than are Ca, Sr, and Ba Li, Na, and K form compounds with oxygen in a ratio of two of their atoms to one oxygen atom, whereas Ca, Sr, and Ba form compounds with one of their atoms to one oxygen atom. However, the specific properties of these two groupings are notably different from each other. A second grouping includes calcium (Ca), strontium (Sr), and barium (Ba), which also are shiny, good conductors of heat and electricity, and have chemical properties in common. One such grouping includes lithium (Li), sodium (Na), and potassium (K): These elements all are shiny, conduct heat and electricity well, and have similar chemical properties. Identify metals, nonmetals, and metalloids by their properties and/or location on the periodic table.Īs early chemists worked to purify ores and discovered more elements, they realized that various elements could be grouped together by their similar chemical behaviours.Predict the general properties of elements based on their location within the periodic table.State the periodic law and explain the organization of elements in the periodic table.Chapter 2: Electronic Structure and Periodic Properties of ElementsĢ.4 Electronic Structure of Atoms (Electron Configurations)Ģ.5 Periodic Variations in Element PropertiesĬhapter 3: Chemical Bonding and Molecular GeometryĬhapter 4: Advanced Theories of Covalent BondingĬhapter 6: Introduction to Organic Structure and Bondingħ.4 Structural Effects on Acidity and Basicityħ.6 Acid-Base Properties of Nitrogen-Containing Functional Groupsħ.9 Effects of Enzyme Microenvironment on Acidity and BasicityĬhapter 8: Conformation and StereochemistryĨ.3 Stereochemistry of Organic Compounds and Pharmaceuticalsīy the end of this section, you will be able to:
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