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I. CHEMICAL PERIODICITY "the variation in properties of elements based on their positions in the periodic table” Dmitri Mendeleev • a 19th cent. Russian chemist, published (1862) an arrangement of elements based on chem. properties of the elements, so that elements with similar properties fell in the same column (62 known in his time) • Brilliant b/c: he left spaces in columns for yet-undiscovered elements Lothar Meyer • a 19th century German chemist, published an arrangement of elements based on physical properties of elements • the two tables were surprisingly similar, and emphasized regular periodic repetition of properties of elements with increasing a.w. Periodic Law • a revision of Mendeleev's/Meyer's groupings, states that "the properties of the elements are periodic functions of their atomic NUMBERS" (not their atomic weights!) 1. Groups/Families • vertical columns • elements in a group/family have similar chem/phys prop's • e- dot notation is the same in a group 1. Groups/Families 2. Periods/Rows • horizontal rows • elements in a period have properties that change progressively across the periodic table 2. Periods/Rows 3. Group Numbers -1-8 or 1-18 or A & B -makes sense to number them 1-8 (based on e- dots) when speaking in general -When getting specific, “column 17” would obviously mean the Halogens 1 2 3 4 5 6 7 8 4. Period Numbers 1-7 (correspond to "n", or principal quantum number), which gives an idea of distance from the nucleus 1 2 3 4 5 6 7 5. Major Categories Inert (Noble) Gases METALS Transition TransitionMetals Metals Lanthanides Actinides Actinides Non-Metals 6. Group Names • a. Alkali Metals - Grp 1 - b/c they are metals that can react w/ water, forming alkaline sol'ns. Found combined in nature; not uncombined. • b. Alkaline Earth Metals - Grp 2 - Found uncombined in nature • c. Halogens - Grp 7 - "salt-formers" • d. Noble (Inert) Gases - Grp 8 - Tend to be unreactive due to their completed octet of e-'s 6. Group Names Alkali Metals Alkaline Earth Metals Chalcogens Halogens Noble Gases (Inert Gases) Important Trends • • • • • • First Ionization Energy Second Ionization Energy Electron Affinity Atomic Radii Ionic Radii Electronegativity First Ionization Energy • Def: “the min. am’t of energy required to remove the most loosely held e-” • top to bottom: decreases, since as atomic size increases, e- from higher energy levels are "shielded*" from the nucleus and are therefore not as tightly bound. (the "*shielding effect") • left to right: increases, as elem's closer to group 7 tend to want to gain e-'s. (Noble gases have the highest F.I.E.) F.I.E. • Which of these more easily loses e-’s? • That’s the one with lower F.I.E. First Ionization Energy Second Ionization Energy • Def: “the amount of energy required to remove the second e• Which is higher – FIE or SIE? • top to bottom and left to right - same trend as F.I.E. S.I.E. Second Ionization Energy Electron Affinity • Def: the amount of energy absorbed when an e- is added to an isolated gaseous atom forming a -1 ion • Elements w/very neg. E.A.'s gain e-'s easily to form anions. • top to bottom - values become less negative • left to right - values become more negative Electron Affinity Ionic Radii • Defined as radius of the ion • top to bottom - increase, due to the increase in "n" • left to right - decrease, due to the addition of e- to same "n“ • Explanation: e- are added to same “n”; there is a ‘tightening” of the overall atomic radius due to increased positive nuclear charge For Metal Atoms forming Metal Ions… • Ionic radii smaller since e- is lost from outermost level; • ie: Na For Nonmetal Atoms forming Nonmetal Ions • As an e- is added to a valence shell, more room is needed (like charges repel) and the ion is larger • ie: F Electronegativity • Def: a measure of the relative tendency of an atom to attract e-'s to itself when it is chemically combined with another atom • Developed by Linus Pauling • EN has no units, since it's relative • top to bottom - decrease in EN • left to right - increase in EN Using Electronegativity to Determine Bond Type • there are two main types of chemical bonds, • a) ionic - have a diff. in EN of > 1.67 • b) covalent - have a diff. in EN of < 1.67 • COVALENT < 1.67 < IONIC Calculate the Bond Type • i.e.: What kind of bond is likely to form in: • H2O • CO2 • NaBr • MgO For: H – O you would look up the EN’s for H and O and subtract For: C – O you would look up the EN’s for C and O and subtract For: Na – Br (same process) More For: Mg – O (same process) on this in the next unit! Miscellaneous Terms • • • • anion - any negative ion cation – any positive ion isoelectronic – (ie: N-3, O-2, F-1, Ne, Na+1, Mg+2, Al+3 ) What must this mean? • For the next unit… • Polyatomic ion – a group of atoms that behaves as a single ion (ie: NH4+, NO3-, CO3-2, SO4-2, etc etc)
