Chapter 3: Elements, Compounds, and the Periodic Table Chemistry: The Molecular Nature of Matter, 6E Brady/Jespersen/Hyslop Properties of Subatomic Particles Nucleus (protons + neutrons) 3 Kinds of subatomic particles of principal interest to Chemists Electrons Particle Mass (g) Electrical Charge Electron 9.109391028 1 Proton 1.672641024 +1 0 1 e 1 1 1 H, 1 p Neutron 1.674951024 0 1 0n Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E Symbol 2 Atomic Notation Atomic number (Z) Number of protons that atom has in nucleus Unique to each type of element Element is substance whose atoms all contain identical number of protons Z = # protons Isotopes Atoms of same element with different masses Same number of protons (11 p ) Different number of neutrons (10n ) Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 3 Atomic Notation Isotope Mass number (A) A = (# protons) + (# neutrons) A=Z+N For charge neutrality, number of electrons & protons must be equal Atomic Symbols Summarize information about subatomic particles Every isotope defined by 2 numbers Z & A A Symbolized by X Z Ex. What is the atomic symbol for helium? He has 2 Brady/Jespersen/Hyslop e –, 2n&2 p+ Z = 2, A = 4 Chemistry: The Molecular Nature of Matter, 6E 4 2 He 4 Isotopes Most elements are mixtures of 2 or more stable isotopes Each isotope has slightly different mass Chemically, isotopes have virtually identical chemical properties Relative proportions of different isotopes are essentially constant Isotopes distinguished by mass number (A): Ex. 3 isotopes of hydrogen (H) 4 isotopes of iron (Fe) Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 5 Example: What is the isotopic symbol for Uranium235? Number of protons (p+) = 92 = number of electrons in neutral atom Number of neutrons (1n) = 143 Atomic number (Z) = 92 Mass number (A) = 92 + 143 = 235 Chemical symbol = U Summary for uranium-235: 235 92 U Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 6 Learning Check: Fill in the blanks: symbol protons 33 Br 46 35 35 36 29 29 65 29 Cu Brady/Jespersen/Hyslop 27 electrons Co 60 27 81 35 neutrons Chemistry: The Molecular Nature of Matter, 6E 27 7 Your Turn! 206 82 Pb has ___ protons, ___ An atom of neutrons, and ___ electrons. A. 82, 206, 124 B. 124, 206, 124 C. 124, 124, 124 D. 82, 124, 82 E. 82, 124, 124 Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 8 Carbon-12 Atomic Mass Scale Need uniform mass scale for atoms Atomic mass units (symbol amu) Based on carbon: 1 atom of carbon-12 = 12 amu (exactly) 1 amu= 1/12 mass 1 atom of carbon-12 (exactly) Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 9 Calculating Atomic Mass Generally, elements are mixtures of isotopes Ex. Hydrogen Isotope 1H 2H Mass 1.007825 amu 2.0140 amu %Abundance 99.985 0.015 How do we define Atomic Mass? Average of masses of all stable isotopes of given element How do we calculate Average Atomic Mass? Weighted average. Use Isotopic Abundances & isotopic masses Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 10 Learning Check Calculate the average atomic mass of magnesium which is a mixture of 3 isotopes: 78.99% of 24Mg (atomic mass, 23.9850 amu), 10.00% of 25Mg (atomic mass, 24.9858 amu), 11.01% of 26Mg (atomic mass, 25.9826 amu). 0.7899 * 23.9850 amu = 18.946 amu 24Mg 0.1000 * 24.9858 amu = 2.4986 amu 25Mg 0.1101 * 25.9826 amu = 2.8607 amu 26Mg Total mass of average atom = 24.3053 amu rounds up to 24.31 amu Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 11 Your Turn! A naturally occurring element consists of two isotopes. The data on the isotopes: isotope #1 68.5257 amu 60.226% isotope #2 70.9429 amu 39.774% Calculate the average atomic mass of this element. A. 70.943 amu 0.60226 * 68.5257 u = 41.270 amu B. 69.487 amu 0.39774 * 70.9429 u = 28.217 amu C. 69.526 amu D. 69.981 amu 69.487 amu E. 69.734 amu Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 12 Periodic Table Summarizes periodic properties of elements Early Versions of Periodic Tables Arranged by increasing atomic mass Mendeleev (Russian) & Meyer (German) in 1869 Noted repeating (periodic) properties Modern Periodic Table Arranged by increasing atomic number (Z): Rows called periods Columns called groups or families Identified by numbers 1 – 18 standard international 1A – 8A longer columns & 1B – 8B shorter columns Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 13 Modern Periodic Table with group labels and chemical families identified Actinides Note: Placement of elements 58 – 71 and 90 – 103 saves space Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 14 Representative/Main Group Elements A groups—Longer columns Alkali Metals (1A = first group) Very reactive All Metals except for H Tend to form +1 ions React with oxygen Form compounds that dissolve in water Yield strongly caustic or alkaline solution (M2O) Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 15 Representative/Main Group Elements A groups—Longer columns Alkaline Earth Metals (2A = second group) Reactive Tend to form +2 ions Oxygen compounds are strongly alkaline (MO) Many are not water soluble Accumulate in ground Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 16 Representative/Main Group Elements A groups—Longer columns Halogens (7A) Reactive Form diatomic molecules in elemental state 2 gases 1 liquid 2 solids Form –1 ions with alkali metals—salts Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 17 Representative/Main Group Elements A groups—Longer columns Noble Gases 8A = last group on right Inert—very unreactive Only heavier elements of group react & then very limited Don’t form charged ions Monatomic gases Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 18 Transition Elements B groups—shorter columns All are metals In center of table Begin in fourth row Tend to form ions with several different charges Ex. Fe2+ and Fe3+ Cu+ and Cu2+ Mn2+, Mn3+, Mn4+, Mn5+, Mn6+, Mn7+ Note: Last 3 columns all have 8B designation Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 19 Metals, Nonmetals, or Metalloids Elements break down into 3 broad categories Organized by regions of periodic table Metals Left-hand side Sodium, lead, iron, gold Nonmetals Upper right hand corner Oxygen, nitrogen, chlorine Metalloids Diagonal line between metals & nonmetals Boron to astatine Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 20 Metals, Nonmetals, or Metalloids Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 21 Metals Most elements in periodic table Properties Metallic luster Shine or reflect light Malleable Can be hammered or rolled into thin sheets Ductile Can be drawn into wire Hardness Some hard – iron & chromium Some soft – sodium, lead, copper Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 22 Properties of Metals Conduct heat & electricity Solids at Room Temperature Melting points (mp) > 25 °C Hg only liquid metal (mp = –39 °C) Tungsten (W) (mp = 3400 °C) Highest known for metal Chemical reactivity Varies greatly Au, Pt very unreactive Na, K very reactive Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 23 Nonmetals 17 elements Upper right hand corner of periodic table Exist mostly as compounds rather than as pure elements Many are Gases Monatomic (Noble) He, Ne, Ar, Kr, Xe, Rn Diatomic H2, O2, N2, F2, Cl2 Some are Solids: I2, Se8, S8, P4, C 3 forms of Carbon (graphite, coal, diamond) One is liquid: Br2 Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 24 Properties of Nonmetals Brittle Pulverize when struck Insulators Non-conductors of electricity and heat Chemical reactivity Some inert Noble gases Some reactive F2, O2, H2 React with metals to form ionic compounds Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 25 8 Elements Metalloids Located on diagonal line between metals & nonmetals B, Si, Ge, As, Sb, Te, Po, At Properties Between metals & nonmetals Metallic shine Brittle like nonmetal Semiconductors Conduct electricity But not as well as metals Silicon (Si) & germanium (Ge) Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 26 Your Turn! Which of the following statements is correct? A. Cu is a representative transition element B. Na is an alkaline earth metal C. Al is a semimetal in group IIIA D. F is a representative halogen E. None of these are correct Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 27 Your Turn! All of the following are characteristics of metals except: A.Malleable B.Ductile C.Lustrous D.Good conductors of heat E.Tend to gain electrons in chemical reactions Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 28 Ions Ions & Ionic Compounds Transfer of 1 or more electrons from 1 atom to another Form electrically charged particles Ionic compound Compound composed of ions Formed from metal & nonmetal Infinite array of alternating Na+ & Cl ions Formula unit Smallest neutral unit of ionic compound Smallest whole-number ratio of ions Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 29 Formation of Ionic Compounds Metal + Non-metal ionic compound 2Na(s) + Cl2(g) 2NaCl(s) Na + Cl + Na + Cl NaCl(s) e Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 30 Cations Ionic Compounds Positively charged ions Formed from metals Atoms lose electrons Ex. Na has 11 e– & 11 p+ Na+ has 10 e– & 11 p+ Anions Negatively charged ions Formed from non-metals Atoms gain electrons Ex. Cl has 17 e– & 17 p+ Brady/Jespersen/Hyslop Cl– has 16 e– & 17 p+ Chemistry: The Molecular Nature of Matter, 6E 31 Ions of Representative Elements Can use periodic table to predict ion charges When we use North American numbering of groups: Cation positive charge = group # Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 32 Rules For Writing Ionic Formulas 1. Cation given first in formula 2. Subscripts in formula must produce electrically neutral formula unit 3. Subscripts must be smallest whole numbers possible Divide by 2 if all subscripts are even May have to repeat several times 4. Charges on ions not included in finished formula unit of substance If no subscript, then 1 implied Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 33 Determining Ionic Formulas Ex. Formula of ionic compound formed when magnesium reacts with oxygen Mg is group 2A Forms +2 ion or Mg2+ O is group 6A Forms –2 ion or O2– To get electrically neutral particle need 1:1 ratio of Mg2+ & O2– Formula: MgO Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 34 Determining Ionic Formulas “Criss-cross” rule Make magnitude of charge on one ion into subscript for other When doing this, make sure that subscripts are reduced to lowest whole number. Ex. What is the formula of ionic compound formed between aluminum & oxygen ions? Al3+ O2– Al2O3 35 Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E Your Turn! Which of the following is the correct formula for the formula unit composed of potassium and oxygen ions? A.KO B.KO2 C.K2O D.P2O3 E.K2O2 Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E Your Turn! Which of the following is the correct formula for the formula unit composed of Fe3+ and sulfide ions? A.FeS B.Fe3S2 C.FeS3 D.Fe2S3 E.Fe4S6 Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E Cations of Transition Metals Transition metals Center (shorter) region of periodic table Much less reactive than group 1A & 2A Still transfer electrons to nonmetals to form ionic compounds # of electrons transferred less clear Form more than 1 positive ion Can form more than 1 compound with same non-metal Ex. Fe + Cl FeCl2 & FeCl3 Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 38 Ions of Some Transition Metals & Post-transition Metals Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 39 Compounds with Polyatomic Ions Binary compounds Compounds formed from 2 different elements Polyatomic ions Ions composed of 2 or more atoms linked by molecular bonds If ions are negative, they have too many electrons If ions are positive, they have too few electrons Formulas for ionic compounds containing polyatomic ions Follow same rules as ionic compounds Polyatomic ions are expressed in parentheses Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 40 Table 3.4 Polyatomic Ions (Alternate Name in parentheses) Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 41 Learning Check Ex. What is the formula of the ionic compound formed between ammonium and phosphate ions? Ammonium = NH4+ Phosphate = PO43– (NH4)+ (PO4)3– (NH4)3PO4 Ex. Between strontium ion and nitrate ion? Strontium = Sr2+ Nitrate = NO32– Sr2+ (NO3)– Brady/Jespersen/Hyslop Sr(NO3)2 Chemistry: The Molecular Nature of Matter, 6E 42 Nomenclature (Naming) IUPAC system to standardize name of chemical compounds One system so that anyone can reconstruct formula from name We will look at naming Ionic Compounds of Representative metals Transition metals Monatomic ions Polyatomic ions Hydrates Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 43 Naming Ionic Compounds Cations: Metal that forms only 1 positive ion Cation name = English name for metal Na+ sodium Ca2+ calcium Metal that forms more than 1 positive ion Use Stock System Cation name = English name followed by numerical value of charge written as Roman numeral in parentheses (no spaces) Transition metal Cr2+ Brady/Jespersen/Hyslop chromium(II) Cr3+ Chemistry: The Molecular Nature of Matter, 6E chromium(III) 44 Naming Ionic Compounds Anions: Monatomic anions named by adding “–ide” suffix to stem name for element Polyatomic ions use names in Table 3.5 Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 45 Learning Check: Name The Following K2O potassium oxide NH4ClO3 ammonium chlorate Mg(C2H3O2)2 magnesium acetate Cr2O3 chromium(III) oxide ZnBr2 zinc bromide Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 46 Learning Check: Determine The Formula Calcium hydroxide Ca(OH)2 Manganese(II) bromide MnBr2 Ammonium phosphate (NH4)3PO4 Mercury(I) nitride (Hg2)3N2 Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 47 Your Turn! Which is the correct name for Cu2S? A. B. C. D. E. copper sulfide copper(II) sulfide copper(II) sulfate copper(I) sulfide copper(I) sulfite Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E Your Turn! Which is the correct formula for ammonium sulfite? a) NH4SO3 b) (NH4)2SO3 c) (NH4)2SO4 d) NH4S e) (NH4)2S Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 49 Naming Hydrates Ionic compounds Crystals contain water molecules Fixed proportions relative to ionic substance Naming Name ionic compound Give number of water molecules in formula using Greek prefixes monoditritetrapentaBrady/Jespersen/Hyslop = = = = = 1 2 3 4 5 hexaheptaoctanonadeca- Chemistry: The Molecular Nature of Matter, 6E = = = = = 6 7 8 9 10 50 Learning Check: Naming Hydrates CaSO4 · 2H2O calcium sulfate dihydrate CoCl2 · 6H2O cobalt(II) chloride hexahydrate FeI3 · 3H2O iron(III) iodide trihydrate Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 51 Your Turn! What is the correct formula for copper(II) sulfate pentahydrate? A.CuSO4 · 6H2O B.CuSO3 · 5H2O C.CoSO4 · 4H2O D.CoSO3 · 5H2O E.CuSO4 · 5H2O Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 52 Molecular Compounds Molecules Electrically neutral particle Consists of two or more atoms Chemical bonds Attractions that hold atoms together in molecules Arise from sharing electrons between 2 atoms Group of atoms that make up molecule behave as single particle Molecular formulas Describe composition of molecule Specify # of each type of atom present Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 53 Molecules vs. Ionic Compounds Molecules Discrete unit Water = 2 hydrogen atoms bonded to 1 oxygen atom Ionic Compounds Ions packed as close as possible to each other Sodium chloride = Each cation has 6 anions; each anion has 6 cations No one ion “belongs” to another Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 54 Molecular Compounds Formed when nonmetals combine C + O2 CO2 2H2 + O2 2H2O Millions of compounds can form from a few nonmetals Organic chemistry & Biochemistry Deal with chemistry of carbon + H, N & O A few compounds have only 2 atoms Diatomics: H2, O2, Cl2, HF, NO Most molecules are far more complex Sucrose (C12H22O11) Brady/Jespersen/Hyslop urea (CON2H4) Chemistry: The Molecular Nature of Matter, 6E 55 Nomenclature of Molecular Compounds Goal is a name that translates clearly into molecular formula Naming Binary Molecular Compounds Which 2 elements present? How many of each? Format: First element in formula Use English name Second element Use stem & append suffix –ide Use Greek number prefixes to specify how many atoms of each element Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 56 Naming Binary Molecular Compounds 1. hydrogen chloride 1 H 1 Cl 2. phosphorous pentachloride 1 P 5Cl 3. triselenium dinitride 3 Se 2N HCl PCl5 Se3N2 Mono always omitted on 1st element Often omitted on 2nd element unless more than one combination of same 2 elements Ex. Carbon monoxide Carbon dioxide CO CO2 When prefix ends in vowel similar to start of element name, drop prefix vowel Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 57 Learning Check: Name Each Format: Number prefix + 1st element name Number prefix + stem + –ide for 2nd element AsF3 HBr = = arsenic trifluoride N2O4 N2O5 CO = = = dinitrogen tetroxide CO2 = carbon dioxide Brady/Jespersen/Hyslop hydrogen bromide dinitrogen pentoxide carbon monoxide Chemistry: The Molecular Nature of Matter, 6E 58 Your Turn! Which is the correct formula for nitrogen triiodide? A.N3I B.NI3 C.NIO3 D.N(IO3)3 E.none of the above Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E Your Turn! Which is the correct name for P4O10? A. phosphorus oxide B. phosphorous decoxide C. tetraphosphorus decoxide D. tetraphosphorus oxide E. decoxygen tetraphosphide Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E Exceptions to Naming Binary Molecules Binary compounds of nonmetals + hydrogen No prefixes to be used Get number of hydrogens for each nonmetal from periodic table Hydrogen sulfide = H2S Hydrogen telluride = H2Te Molecules with Common Names Some molecules have names that predate IUPAC systematic names Water H 2O Ammonia NH3 Brady/Jespersen/Hyslop ▪ Sucrose C12H22O11 ▪ Phosphine PH3 Chemistry: The Molecular Nature of Matter, 6E 61 Summary of Naming Brady/Jespersen/Hyslop Chemistry: The Molecular Nature of Matter, 6E 62