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ATOMS, MOLECULES, & IONS Dalton: atomic theory Molecules & Compounds Atomic Structure & Weights P. Table CMPDS: formula, name Molecule/Cmpd Cmpd: metal + nonmetal transfer of emetal lose & nonmetal gains Molecule: nonmetal + nonmetal share e= or un= sharing Law Mass Conservation Total mass not D in chem rxn. - total mass reactants = total mass pdts H2 + O2 -------> H2O 2 H2 + O2 ------> 2 H2O 1.0 16.0 2.0 + 16.0 2*2.0 + 32.0 2*18.0 2.0 + 32.0 34.0 = 18.0 36.0 = 36.0 Mass is neither created nor destroyed, but changes form Definite Composition Law: cmpd composed of elements in a fixed ratio by weight Fraction Mass: fraction each element contributes to total mass of cmpd Fract.Mass mass of each element total mass cmpd. % Mass: % mass each element contributes to total mass of cmpd % mass = fraction mass * 100 Multiply Proportions When 2 elements combine to give to diff. substances, the masses of elements that form molecule can be expressed as a simple whole # CO 43% C 57% O CO2 27% C 73% O Elements: simplist form of matter; only 1 kind of atom; p.table; not broken down any further Compound: 2+ diff atoms bonded; fixed ratio by mass; properties diff than individual atoms; decomposed into simplier subst (chem) Mixture: 2+ diff subst; not chem react; mix in any diff amts; sep physical means TERMS Atomic Number: identifies which element # of protons Atomic Mass: relative ave mass of element including % of all isotopes Mass Number: atomic mass rounded to nearest whole number # protons + # neutrons Isotope: diff form of same element diff # of neutrons Greeks: 4 elements earth - air - water - fire Democritus - particles atomos Newton Dalton - atomic theory, 4 postulates pg 42 1. All matter composed of identical atoms 2. Atoms that make up elements are diff diff. elements ---- atom make-up diff 3. Atoms neither created nor destroyed in chem rxns. Chemical rxns only involve change in atom ratios to produce new subst., not change in atoms themselves 4. Cmpds. are composed of diff atoms in fixed ratio Dalton’s theory explained laws of “……. definite composition” “……. conservation of mass (mattter)” ATOMIC STRUCTURE Rutherford Au foil particles p+, protons n0, neutrons e-, electrons pg 48 e-: -1.602*10-19 C p+: + 1.602*10-19 C charge “1+” “0” “1-” mass 1 1 0 location nucleus nucleus outside p+ 1.0073 amu n0 1.0087 amu e- 5.486*10-4 amu determine element isotope chemistry 1836 e- = 1 p+ mass ISOTOPE NOTATION mass # p+ + n0 p.table atomic # # p+ p.table 88 38 Sr 50 X +/- charge 59 # n0 mass# - atomic# 28 Ni What info can you get Element: Mass #: p.table Symbol: # n0 Notation with 2 less e-’s Atomic #: 31 Element: Phosphorus Symbol: This is element # , therefore, it is Atomic # Mass #: # n0 Write notation with 3 more e-’s Now, try notation for O-15 RELATIVE ATOMIC WEIGHT • NEON 3 Isotopes 20.1797 Isotope Mass % Abundance 20Ne 19.9924356 90.48 % 21Ne 20.9938428 0.27 % 21.9913831 9.25 % 22Ne 20Ne 19.9924356 * 0.9048 = 18.08915573 21Ne 20.9938428 * 0.0027 = 0.056683376 22Ne 21.9913831 * 0.0925 = 2.034202937 + 20.18004204 ATOMIC MASS SCALE 1 amu = 1.66054*10-24 g 1 g = 6.02214*1023 amu mole Atomic Weight H = 1.00794 = 1 particles charge p+, protons “+” n0, neutrons “0” e-, electrons “-” 1 p+ 0 n0 2 p+ 2 n0 He = 4.0026 = 4 Co = 58.9332 = 59 mass 1 1 0 27 p+ 32 n0 PERIODIC TABLE families, series, metal/nonmetal/metaloid incr atomic # last element not reactive; complete filled e- shell rows: periods/series columns: families/groups similar properties; same # valence e- ELEMENT CHARACTERISTICS nonmetal metal No luster or shine Not malleable Not ductile Forms molecules w/ each other or other elements Not conduct 20 elements Can form “+” & “-” charges Usually solids @ room temp Shine w/ luster, metallic luster Ductile: form into a wire, stretch when pulled Malleable: able to hammer (pound) into shape, deform w/o breaking Conducts heat & electricity Always “+” charge 70% of elements metalloid Form alloys w/ other metals Brass, Bronze Properties similar to metals & nonmetals Cu + Zn Cu + Sn Conduct electricity, semiconductor properties B, Si, As, Te, Ge, Sb MOLECULES/CMPDS molecules: 2+ diff atoms bonded together in any ration C2H6 C2H4 C2H2 diatomics: 2 of same atom combined 7: H, N, O, F, Cl, Br, I H2, N2, O2, F2, Cl2, Br2, I2 cmpds: combine +/- charged ion metal + nonmetal cation(+) anion(-) Binary - 2 element cmpd; + metal & - non Na+1Cl-1 Mg+2O-2 NaCl MgO Sodium Chloride Magnesium Oxide NOTICE: = opp charges, & diff charges Na+1O-2 Mg+2Cl-1 Na2O MgCl2 Sodium Oxide Magnesium Chloride REVIEW: Structure of an Atom 3 subatomic particles: p+; no; ee- --> chemistry (E) p+ --> element no --> isotope Z: atomic number; # p+; i.d. element A: mass number; p+ + no N: # no; A - Z Atomic Symbol Isotope Notation A ch arg e Z XN FORMS: 39 K 19 Potassium - 39 39 K 19 20 K - 39 39 K 1 19 20 ISOTOPE same element, same # p+, only change # no Diff. make-up of same element 1) Not change element itself, same # p+ 2) Diff. # of n0 3) Change atomic weight/mass result is change in Density ATOM ---charged Termed: ION Cation: + charged # p+ > # e# p+ < # e- Anion: - charged “+” charge “-” charge same element, same # p+, only change # e- # p+ = # eno charge to atom magnitude p+ charge = that of e- but “+” in sign PERIODIC TABLE - arranged atomic # - 7 rows; periods/series - 18 columns; groups/families elements in each group – similar chemical properties Groups numbered in 2 ways Group A/B Group 1 - 18 Group A/B Main Group “A” : first 2 col. left, last 6 col. rgt. Transistion Metals “B”: 10 col. in middlde Group 1 – 18 Each col. numbered 1 thru 18, left to right Inner Transition Metals (Rare Earth) Lanthanide Series; elements 58 - 71 Actinide Series; elements 90 – 103 14 col., not numbered 1A : ALKALI METALS elements 1st col.: Li, Na, K, Rb, Cs, Fr Shiny, soft, low melting pt. React violently w/ H2O produce alkaline (or basic) Not found in pure state, combined w/ other elements in cmpd. 2A: ALKALINE METALS elements 2nd col.: Be, Mg, Ca, Sr, Ba, Ra shiny, silvery less reactive than 1A Not found in pure state 7A: HALOGENS (HALIDES) elements next to last col.: F, Cl, Br, I, At colored, corrosive nonmentals found combined w/ elements Halogen (HALS) - salt 8A: NOBLE GASES (INERT) elements last col.: He, Ne, Ar, Kr, Xe, Rn colorless gases, nonmetals low reactivity w/ other subst. INERT - nonreactive Diatomics H2 -- N2 -- O2 -- F2 -- Cl2 -- Br2 -- I2 Tetratomic: P4 Octatomic: S8 -- Se8 Polyatomic Ions: group of 2+ atoms covalently bonded together; net overall charge (+/-) Formula Types Empirical Molecular each diff element in subst. written in simplest form H2O2 --- HO Pb2(SO4)4 --- Pb(SO4)2 - PbSO actual # of each diff element in subst.; H2O2 Structural give relative manner in atoms are arranged in subst.; H—O—O—H pg58 Ionic or Covalent ???? Ionic: metal + nonmetal joined together to form an ionic cmpd. by forming an ionic bond Covalent: nonmetal + nonmetal joined together to form a covalent molecule by forming a covalent bond COMPOUND Binary: compound comprised of only 2 different elements Name: second element name ends in -ide Mg3N2 Magnesium Nitride PCl3 Phosphorus Trichloride IONIC CMPD Regular Metal elements w/ only one positive charge Main group elements -- A columns Col. 1A -- +1 Col. 2A -- +2 Col. 3A -- +3 Ag +1 Zn +2 1st: name metal -- 2nd: single nonmetal, name with -ide ending NaCl -- Sodium Chloride Ba3P2 -- Barium Phosphide 2nd: name of polyatomic group (pg 62) AgNO3 -- Silver Nitrate Irregular Metal elements w/ more than one positive charge Transistion elements -- B columns Metal use name w/ charge, or, derived name lowest -ous highest -ic 1st: name metal, charge -- 2nd: single nonmetal, name with -ide ending FeCl2 -- Iron II Chloride FeCl3 -- Iron III Chloride Ferrous ” Ferric ” 2nd: name of polyatomic group Co(NO2)2 -- Cobalt II Nitrite CHEMICAL SYMBOLS He not HE Na not NA H; Sn; W; He -- symbols are of 1 or 2 letters First letter is always CAPITALIZED Second letter, if present, always lower case NOMENCLATURE & FORMULA WRITING Important components to always keep in mind are: 1. Oxidation numbers 3. Ionic/Covalent 5. Metal > 1 charge 2. Which are “+” & “-” ions 4. Binary or higher OXIDATION NUMBERS 1. “H” +1 except hydrides (-1) 2. “O” –2 except peroxides (-1); w/ “F” (+2) 3. “F” Fluorine, always -1 4. Metal always “+” joined w/ Nonmetal always “-” 5. Metals 1st Col. +1 Nonmetal “-” charge based on # moves to end of row 2nd Col. +2 BINARY COMPOUNDS Cmpds. containing 2 diff. elements A. IONIC CMPDS: Metal + Nonmetal 1st : Name of element NaCl ___________ Fe +2 Cl Fe1Cl2 -1 2nd: Element name, ending changed to “–ide” BaF2 ___________ Fe+3 Cl-1 Fe1Cl3 see list “on-line syllabus” no “O” -ide -I iodide Polyatomic Pattern -- Oxoanions 1-O hypo-root-ite -IO hypoiodite 2-O root-ite -IO2 iodite 3-O root-ate -IO3 iodate 4-O per-root-ate -IO4 periodate Acid hydro-root-ic HI Hydroiodic hypo-root-ous HIO Hypoiodous root-ous HIO2 Iodous root-ic HIO3 Iodic per-root-ic HIO4 Periodic COVALENT MOLECULES Same pattern as Ionic Cmpds, but, use prefix to indicate # of each element present PREFIXES: mono: 1 di: 2 hexa: 6 hepta: 7 tri: 3 octa: 8 tetra: 4 nano: 9 penta: 5 deca: 10 B. COVALENT MOLECULES (CMPDS) Nonmetal + Nonmetal 1st : Name of element prefix only if subscript # > 1 CO __________ CO Carbon P2S5 __________ 2nd: Element name, ending changed to “–ide” always use prefix, even if subscript only 1 N2O __________ CO2 Carbon -ITE & -ATE ENDINGS -ite & -ate ending indicates the presence of “oxygen” -ite ending indicates 1 less “O” than –ate ending -ate ending indicates 1 more “O” than –ite ending MULTIPLE CHARGED METALS IRREGULAR METALS Metals w/ 2 or more charges Use: 1) Roman Numeral to indicate the charge 2) Derivative Name Iron II Iron III Ferrous Ferric Copper I Copper II -OUS lowest charge -IC highest charge Cuprous Cupric FeO Fe2O3 No subscripts +2 -2 Fe O charge “O” –2 = charge “Fe” +2 Iron II Oxide Ferrous Oxide +3 -2 Fe2 O3 Charge on “Fe” = +3 Iron III Oxide Ferric Oxide ACID NAMING PATTERN Based on the polyatomic ions “ate” & “ite” endings No “O” Hydro- root-ic HCl Hydrochloric Acid H2S Hydrosulfuric Acid H3P Hydrophosphoric Acid Halogen Acid Pattern F, Cl, Br, I 1 “O” 2 “O” 3 “O” 4 “O” -ClO -ClO2 -ClO3 -ClO4 Chlorite Chlorate Perchlorate Chlorous Acid Chloric Acid Perchloric Acid Hypochlorite Hypochlorous Acid -ITE -ATE Change ending to “OUS” Change ending to “IC” HYDRATE : In a cmpd refers to WATER -- H2O Calcium Sulfate Octahydrate Ca SO4 . 8H2O Beryllium Hydroxide +2 -1 Be 1 OH 2 Cu3(PO4)2 Be(OH)2 Metal w/ multiple charges (+1 or +2) Copper II Phosphate Ion CO3 Carbon Trioxide & CO2 3 Carbonate Ion KF Potassium Fluoride Sn(SO4)2 Tin IV Sulfate Sn(+4) Sn2(SO4)4 & SO4(-2): Added subscripts The charge on SO4 times the subscript (from the charges) are simplified in gives you the charge on Tin: 2 * |-2| = 4 Ionic Cmpds Lead II Bicarbonate Ammonium Silicate ZnO Ferric Dichromate Iron III PO3 -3 closer to F, more neg charge charge P + charge O = -3 -2 P? + 3(O ) = -3 We know O-2 -2 P? = -3 - 3(O ) P +3 Then P must be + P? = -3 – (-6) ? = +3 Exceptions Oxides O EXCEPTIONS -2 Peroxides H2O Di Hydrogen Water H2O2 Li2O Lithium Li2O2 Na2O Sodium Na2O2 K2O Potassium K2O2 Rb2O Rubidium Rb2O2 O -1 Hydride H -1 NiH2 Nickel II Hydride NaH Sodium Hydride