Further discoveries in the development of Atomic Theory 1.Conservation of mass (conservation of mass –energy) 2.Law of definite proportions: the composition.

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Presentation transcript:

Further discoveries in the development of Atomic Theory 1.Conservation of mass (conservation of mass –energy) 2.Law of definite proportions: the composition of the same pure substance always contains the same elements in the same proportion by mass Example: CH 4 natural gas (odorless, tasteless, colorless) CH 4 + O 2 = CO 2 + H 2 O + heat

Further discoveries in the development of Atomic Theory 1.Conservation of mass (sort of) 2.Law of definite proportions: the composition of the same pure substance always contains the same elements in the same proportion by mass. 3.Law of multiple proportions: the same two elements can combine to form different compounds. However the ratio of the mass of one element that combines with a fixed amount of the second element is always in the ratio of whole numbers.

ethane 1gH/4gC ethylene 0.71g H/4.29gB; How much combines with 1 g of H? 0.71g H/4.29g C = 1g H/x C; x C = 6.0g benzene0.39g H/4.61g C; How much combines with 1 g of H? 0.39g H/4.61g C = 1g H/xg C; xg C = 12 g The amount of carbon that combines with 1 g of hydrogen is in the ratio of whole numbers: 2:3:6 (or equivalently, 4: 6: 12)

Naming Chemical Compounds The metal is named first followed by the name of the non metal; An alternative way of looking at this is the cation (+) is named before the anion (-) Binary Compounds 1.NaCl sodium chloride (sodium and chlorine) 2.LiF lithium fluoride (lithium and fluorine) 3.KBr potassium bromide (potassium and bromine) 4.CaO calcium oxide(calcium and oxygen) 5.ZnS zinc sulfide(zinc sulfide)

More Complex Compounds 1.Na 2 O sodium oxide 2.Ba(OH) 2 barium hydroxide 3.H 2 S hydrogen sulfide 4.CO carbon monoxide 5.CO 2 carbon dioxide 6.SO 3 sulfur trioxide

Chemical Bonding: Why are most elements in the periodic table found combined? Combined elements must be more stable under enviromental conditions What is the nature of the bonding found between different elements in: 1.CO, CH 4,CO 2 ? covalent: 2.Na + Cl -, CH 3 CO 2 -1 K +, Zn +2 CrO 4 -2 ionic and ionic and covalent 3.Na,Fe,Mg,Zn metallic (a special case of covalent bonding and ionic bonding)

What do we mean by these terms: ionic, metallic and covalent? Covalent bonding: bonding between two or more elements by mutual sharing of electrons, but not necessarily equally. Ionic bonding: bonding that occurs as a result of transfer of an electron from one element to another. This type of bonding is generally observed only in the solid state and in very polar liquids such as water. In the gas phase, bonding is generally more the result of electron sharing. Bonding in metals: Bonding in metals is more difficult to describe but does involve sharing of electrons. In metals it is more difficult to associate specific electrons as belonging to a particular element.

1.Why do different elements need to form different types of bonds? Not all elements readily form bonds. The inert gases are found in nature uncombined. Since these elements have differing number of protons and more importantly, different number of electrons surrounding the nucleus, a study of how the electrons are distributed in space may give us a clue as to why these elements (the inert gases) are un-reactive and also why other element are reactive. However we will defer this discussion until later

One way of looking at covalent bonding:

Some examples of molecules with covalent bonding

NaCl: an example of a substance with ionic bonding

Despite the fact that metals form stable bonds with each other, this doesn’t mean that they cannot be unreactive toward other substances. Take for example Al and I 2 CCA3 D:\MOVIES\METALI1 Chapter 1 visuals

Common bonding exhibited by various elements in the periodic table column number in periodic table [ ]; common charge ( ) if ionic Alkali metals [1](+1) 1 bond with other nonmetals Alkaline earths [2](+2)2 bonds with other nonmetals Metaloids [3](+3)3 bonds with other nonmetals or metals Nonmetals Group [4]4 bonds Non-metals Group [5](-3)3 bonds with nonmetals or metals Non-metals Group [6](-2)2 bonds usually with metals Non-metals Group [7](-1)1 bond with metal or nonmetal Inert Gases Group [8] 0 bonds with anything Transition metals (+2, + other)2 bonds with nonmetals

Water: H 2 O Water is probably the most unique and anomalous chemical substance in the universe. Without it life would not be possible. Our bodies are approximately 70 % H 2 O. The properties of water are anomalous in comparison to similar compounds formed by other elements. H 2 OH 2 S,NH 3,PH 3,CH 4,HF Melting point(K): Boiling temperature (K): Solvent properties: In the presence of water, may substances undergo substantial changes

The Effects of H 2 O on Some Substances HCl (gas)covalent bonding H 2 SO 4 (concentrated, liquid)covalent bonding H 3 PO 4 (liquid) covalent bonding When H 2 O is added to any of these three compounds, the following happens: HCl + H 2 O = H 3 O + + Cl - 2H 2 SO 4 + 3H 2 O = 2H 3 O + + HSO SO 4 -2 H 3 PO 4 + H 2 O = H 3 O + + H 2 PO 4 -

Acids and Bases Acid: A substance that readily gives up a hydrogen ion (H + ). Generally we refer to an acid as something that gives up a proton to water to form a hydronium ion, simply written as H 3 O +. Base: A substance that readily picks up or abstracts a hydrogen ion (H + ). Generally we refer to a base as a substance that picks up a proton to water to form a neutral substance, often H 2 O. Acid + Base = Salt + Water

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