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The Periodic Table. Chap. 6. Early Attempts at Organizing the Elements. Early Attempts at Organizing the Elements. Lavoisier’s list: 23 elements. Early Attempts at Organizing the Elements. Lavoisier’s list: 23 elements 1870’s : 70 known elements. Early Attempts at Organizing the Elements.
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The Periodic Table Chap. 6
Early Attempts at Organizing the Elements • Lavoisier’s list: 23 elements
Early Attempts at Organizing the Elements • Lavoisier’s list: 23 elements • 1870’s : 70 known elements
Early Attempts at Organizing the Elements • Lavoisier’s list: 23 elements • 1870’s : 70 known elements • Dobereiner’s triads
Halogen Triad Cl Br I mass 35.5 u 79.9 u 127 u .00321 3.12 4.93 density -101oC -7oC 114oC M.P. -34 oC 59oC 185oC B.P.
Self Check – Ex. 1 Ca Sr Ba mass 40 u 88 u 137 u 1.55 ? 3.62 density 842oC ? 727oC M.P. 1500oC 1412oC 1845 oC B.P.
Self Check – Ex. 1 Ca Sr Ba mass 40 u 88 u 137 u 1.55 2.6 3.62 density 842oC 7770C 727oC M.P. 1500oC 1412oC 1845 oC B.P.
Early Attempts at Organizing the Elements • Lavoisier’s list: 23 elements • 1870’s : 70 known elements • Dobereiner’s triads • Newlands: Law of Octaves
Early Attempts at Organizing the Elements • Mendeleev’s Table
Early Attempts at Organizing the Elements • Mendeleev’s Table • produced simultaneously with Meyer
Early Attempts at Organizing the Elements • Mendeleev’s Table • produced simultaneously with Meyer • organized elements by increasing mass
Early Attempts at Organizing the Elements • Mendeleev’s Table • rearranged a few elements to match properties
Early Attempts at Organizing the Elements • Mendeleev’s Table • rearranged a few elements to match properties • left gaps for undiscovered elements
Early Attempts at Organizing the Elements • Mendeleev’s Table • rearranged a few elements to match properties • left gaps for undiscovered elements • described periodic law
Periodic Law When arranged according to increasing atomic number, there is a repeating pattern of an element’s properties
The Modern Periodic Table • Periods
The Modern Periodic Table • Periods • Groups/Families
The Modern Periodic Table • Periods • Groups/Families • Metals/Non-Metals/Semimetals
The Modern Periodic Table • Periods • Groups/Families • Metals/Non-Metals/Semimetals • Transition Metals/Inner Transition Metals/ Representative Elements
The Modern Periodic Table • Periods • Groups/Families • Metals/Non-Metals/Semimetals • Transition Metals/Inner Transition Metals/ Representative Elements • Physical States
The Modern Periodic Table • Periods • Groups/Families • Metals/Non-Metals/Semimetals • Transition Metals/Inner Transition Metals/ Representative Elements • Physical States • Naturally occurring elements
Periodic Trends • Valence Electrons
Periodic Trends • Valence Electrons • as you go down a group, the number of valence electrons __________
Periodic Trends • Valence Electrons • as you go down a group, the number of valence electrons __________ • as you go across a period, the number of valence electrons __________
Periodic Trends • Atomic Radius
Atomic radius Distance between the nucleus and the outermost electron.
Periodic Trends • Atomic Radius • as you go down a group, the atomic radius __________
Periodic Trends • Atomic Radius • as you go down a group, the atomic radius __________ • as you go across a period, the atomic radius __________
Self Check – Ex. 2 Put the following atoms in order from smallest to largest radius P Mg O Ca
Periodic Trends • Ionic Radius
Ion An atom that has gained or lost an electron
Periodic Trends • Ionic Radius • as you remove an electron, the radius __________
Periodic Trends • Ionic Radius • as you remove an electron, the radius __________ • as you add an electron, the radius __________
Periodic Trends • Ionic Radius • as you remove an electron, the radius __________ • as you add an electron, the radius __________ • the isoelectronic atoms that are the smallest have the most _______
Isoelectronic atoms Atoms that have the same number of electrons.
Self Check – Ex. 3 Put the following in order of increasing radius Cl- Ca2+ Ar K+
Periodic Trends • 1st Ionization Energy
Ionization Energy The energy required to remove an electron.
Periodic Trends • 1st Ionization Energy • as you go down a group the ionization energy ________
Periodic Trends • 1st Ionization Energy • as you go down a group the ionization energy ________ • as you go across a period the ionization energy ________
Periodic Trends • 1st Ionization Energy • as you go down a group the ionization energy ________ • as you go across a period the ionization energy ________ • as you remove each additional electron the ionization energy ________
Self Check – Ex. 4 For what ionization will a large jump in ionization energy be observed with aluminum?
Periodic Trends • Electronegativity
Electronegativity The ability of an atom to attract electrons in a chemical bond.