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Learn about the different phases of matter (solids, liquids, and gases) and the physical characteristics of metals and nonmetals. Understand the rules for naming ionic and covalent compounds, as well as the conservation of mass in chemical reactions.
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Phases of Matter Solids • Atoms tightly bound • Fixed volume and shape (does not conform to container) • A chemical is denoted as solid by labeling it with (s) S(s)
Phases of Matter Liquids • Atoms less tightly bound than solids • Has a definite volume, but not definite shape (assumes the shape of its container) • Denoted by (L) H2O (L)
Phases of Matter Gases • Free atoms • No shape, no definite volume • Can be expanded or compressed (like engine piston) • Denoted by (g) ; ex. O2 (g)
Elemental Classifications • Elements can be metals, nonmetals, or semiconductors(intermediates between metals and nonmetals) • Physical Characteristics of Metal • Solids at room temperature (except Mercury) • Malleable and ductile • Conductive of electricity and heat • Have luster and shine • Very High Melting Points
Elemental Classifications Physical Characteristics of Nonmetals • Non conductive • Most are gases, but some are solid. The solids tend to be brittleand powdery • Low melting points He (g) S(s)
All elements LEFT of the black line are treated as metals, except Hydrogen.
Chemical Groups and Diatomic Molecules • Certain elements are unstable, and hence, do not commonly exist as individual neutral species, but rather as diatomic molecules • These include H, O, N, and all of the halogens (group 17) H H2 (Hydrogen gas) O O2 (Oxygen gas) N N2 (Nitrogen gas) F, Cl, Br, I F2, Cl2, Br2, I2 (Fluorine (g), chlorine (g), bromine (L) and iodine (s))
Nomenclature: Ionic Compounds • Example • KF Potassium Fluoride • Molecules are formed by atomic bonding. For purposes of naming, we consider two types of molecules: IONICand COVALENT. Special rules exist for naming molecules of each type. • Ionic “bonds” form between metal ions and nonmetal ions • To name an ionic compound, you do the following • Write the name of the metal • Follow it with the ionic name of the nonmetal ion
Nomenclature: Covalent Compounds • Examples • CO carbon monoxide • N2S dinitrogensulfide • CO2carbon dioxide • P4Se10tetraphosphorusdecaselenide • Covalent bonds form between nonmetals • To name an covalent compound: • Write the name of the first nonmetal. For non-unity subscripts, use greek prefixes (shown on right) • Follow that with the ionic name of the second nonmetal. Again, include greek prefixes. Only use mono- for oxygen containing molecules.
Nomenclature: The Strange Rules of Hydrogen • Hydrogen chalcogenides and halides are named according to ionic rules, if the hydrogen is listed first. Ex. H2S (g) = hydrogen sulfide; HF (g) = Hydrogen Fluoride • Hydrogen halides dissolved in water(anything dissolved in water is called an “aqueous solution”, abbreviated “aq”) are acidsand are named as such. • We drop –gen and end the second nonmetal with the suffix “–icacid” HCl(aq) = hydrochloric acid ; HF (aq) = hydrofluoric acid • If hydrogen is listed last, it is a hydride anion (H-). The name is ionic or covalent depending on what it is paired with. Ex. MgH2= magnesium hydride (ionic); TeH2= telleriumdihydride (covalent)
Conservation of Mass • All chemical reactions obey the law of conservation of mass. • Therefore, in a chemical reaction, atoms are merely rearranged to create new molecules. The total mass of matter present at the end of a reaction must equal the mass present at the beginning. • You can not create elements via chemical reaction! Matter can not created or destroyed.
Chemical Reactions • As you can see from the chemicalequationshown to the left, productstypically exhibit vastly different characteristics the reactants • Also recall our discussion on the law of conservation of mass. Based on this law, can you find a problem with the equation written shown?
Balanced Reactions • Mass can not be created or destroyed. This means that every element contained in the reactants must be accounted for in the product(s) • There are two chlorine atoms on the reactant side, and only one chlorine atom one the product side. To balance the chlorine atoms, we add a coefficientof 2 to the product side • We now add a coefficient of 2 to the Na (s). The reaction is now balanced.
Coefficients And Subscripts • The balanced equation above says that two Na atoms react with one chlorine gas moleculeto produce two molecules of NaCl • The coefficientof 2 means that there are two separate Na atoms • The subscriptof 2 indicates two Cl atoms bonded together in a single molecule • Do not confuse coefficients and subscripts. Do not alter subscripts when balancing. NaCl Na Cl Cl NaCl Na
Tips For Balancing Reactions • Before carrying out any calculations, it is imperative that you first confirm that a given chemical equation is balanced. • The rules for balancing a chemical equation are provided below. • First, balance those elements that appear only once on each side of the equation • Balance the other elements as needed. Pay attention to subscripts. • Include phases
Tips For Balancing Reactions • Let’s balance the equation below using the rules from the previous slide. C3H8 (s) + O2 (g) C3H8 (s) + O2 (g) C3H8 (s) + O2 (g) C3H8 (s) + 5 O2 (g) CO2 (g) + H2O (L) 3 CO2 (g) + H2O (L) 3 CO2 (g) + 4 H2O (L) 3 CO2 (g) + 4 H2O (L) • We’ll balance C first. • Now balance H. • Now balance O.
Group Work • Balance the following reactions: Sulfur trioxide (g) Sulfur dioxide (g) + Oxygen (g) Dichlorineheptaoxide (g) + Water (L) Hydrochloric acid (aq) + Oxygen (g) C4H10(g) + Oxygen (g) Carbon Dioxide (g) + Water (g)
