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Ch. 6 The Periodic Table Mendeleev’s Periodic Table • Elements in the periodic table are arranged by repeating properties • Arranged in order by increasing atomic mass • Left spaces where he predicted future elements would fit Mendeleev’s Periodic Table However….. • Mendeleev ordered his elements in order of their relative atomic mass, and this gave him some problems. For example, iodine (126.90) has a lower relative atomic mass than tellurium (127.60), so it should come before tellurium in Mendeleev's table - but in order to get iodine in the same group as other elements with similar properties such as fluorine, chlorine and bromine, he had to put it after tellurium, thereby breaking his own rules Moseley • Soon after Rutherford's landmark experiment of discovering the proton in 1911, Henry Moseley (1887-1915) subjected known elements to xrays. He was able to derive the relationship between x-ray frequency and number of protons. When Moseley arranged the elements according to increasing atomic numbers and not atomic masses, some of the inconsistencies associated with Mendeleev's table were eliminated. The modern periodic table is based on Moseley's Periodic Law (atomic numbers). At age 28, Moseley was killed in action during World War I and as a direct result Britain adopted the policy of exempting scientists from fighting in wars. Periodic Law • In the modern periodic table, elements are arranged in order by increasing Atomic Number • 7 horizontal rows called periods • Each period corresponds to a principle energy level • Elements within a group (column) have similar properties Periodic Law • States: When elements are arranged by increasing atomic number, there is a periodic repetition of their physical and chemical properties Metals, Nonmetals, Metalloids Metals • 80% of the periodic table is metals • Good conductors of heat and electricity • Malleable- can be shaped • Ductile- can be drawn into wires • Lustrous • Solids at room temperature (except Hg) • Many react with HCl and CuCl2 MAGNESIUM ZINC Nonmetals • • • • Poor conductors of heat and electricity Not malleable Not ductile Dull Metalloids • Generally has some properties of a metal, some of a nonmetal Alkali Metals Lithium (Li) 1s22s1 Sodium (Na) 1s22s22p63s1 Potassium (K) 1s22s22p63s23p64s1 Alkaline Earth Metals Beryllium (Be) Magnesium (Mg) Calcium (Ca) 1s22s2 1s22s22p63s2 1s22s22p63s23p64s2 Halogens Fluorine (F) 1s22s22p5 Chlorine (Cl) 1s22s22p63s23p5 Bromine (Br) 1s22s22p63s23p64s23d104p5 Noble Gasses Neon (N) 1s22s22p6 Argon (Ar) 1s22s22p63s23p6 Krypton 1s22s22p63s23p64s23d104p6 (Kr) Trends in Atomic Size • Atomic radius is ½ the distance between the nuclei of 2 like atoms • As you move DOWN a group, atomic size increases • As you move LEFT to RIGHT across a period size decreases Why? As you move across the period you gain electrons but you also gain protons. More + protons hold their electrons tighter As you move down the group you gain more electrons which are in electron orbitals further away from the nucleus. The nucleus has less influence the further out you move. Trends in Ionization Energy • Ionization Energy is the energy required to remove 1 electron from a gaseous atom • As you move DOWN a group ionization energy DECREASES • As you move LEFT to RIGHT across a period ionization energy INCREASES Why? • As you move down a • As you move across a group you add more period, you add more energy levels. The protons in the valence electrons are nucleus, but not more now further from the energy levels. There positive nucleus and it is less “electron is easier to “lose” shielding” between them. the positive nucleus and electrons…the positive nucleus pulls the electrons closer into it. Why? Trends in Electronegativity • Electronegativity is the tendency of an atom to attract electrons in a compound • As you move DOWN a group Electronegativity DECREASES • As you move LEFT TO RIGHT across a period Electronegativity INCREASES Why? • Do any of the atoms in group 1A want to gain electrons???? • NO!...They are looking to give them away…please take them..I won’t fight you for them! • Just ask yourself…. who really, really wants to gain electrons? Fluorine….it is the T.Rex of the periodic table.---Small radius and just needs one more electron! Fluorine Fluorine Atomic Radius The atomic radius is a term used to describe the size of the atom, but there is no standard definition for this value. atomic radius is the average distance from the center of the nucleus to the outer orbital. We will use the following definition: Trends in Atomic Ion Radius For METALS: as you lose electrons there is less electron-electron repulsion (remember like charges repel) and the radius gets smaller. You “lose” all the electrons in the outer energy level the resulting ion is MUCH smaller. For NONMETALS: as you add electrons, you increase the electron-electron repulsion (they want to get far away from one another) and the radius “fills out” thus getting larger. Summary of Periodic Trends