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Chapter One The Air We Breathe What is in the air that we breathe? Can air be dangerous to our health? How can understanding chemistry help us decide?

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Presentation on theme: "Chapter One The Air We Breathe What is in the air that we breathe? Can air be dangerous to our health? How can understanding chemistry help us decide?"— Presentation transcript:

1 Chapter One The Air We Breathe What is in the air that we breathe? Can air be dangerous to our health? How can understanding chemistry help us decide? 1

2 The Composition of Our Air It’s a mixture – a physical combination of two or more substances present in variable amounts. 2 SubstanceInhaled air*Exhaled air* Nitrogen78.0% Oxygen21.0%16.0% Argon0.9% Carbon dioxide0.04%4.0% Water vaporvariable What’s in a Breath? * Percents are by volume

3 Concentration Terms Parts per hundred (percent) Parts per million (ppm) Parts per billion (ppb) Atmosphere is 21% oxygen = 21 oxygen molecules per 100 molecules and atoms in air Midday ozone levels reach about 0.4 ppm = 0.4 ozone molecules 1 x 10 6 molecules and atoms in air Sulfur dioxide in the air should not exceed 30 ppb = 30 sulfur dioxide molecules 1 x 10 9 molecules and atoms in air 3

4 21% means 21 parts per hundred means 210 parts per thousand means 2,100 parts per ten thousand means 21,000 parts per hundred thousand means 210,000 parts per million The difference between pph and ppm is a factor of 10,000 4

5 Scientific Notation: A review 11000 = 0.00021 = 1.1 x 10 4 2.1 x 10 -4 1.021 x 10 -3 0.001021 = 1730 = 1.73 x 10 3 6.022 x 10 -23 = 0.000,000,000,000,000,000,000,06022 602,200,000,000,000,000,000,000 = 6.022 x 10 23 Note: same number of significant figures on both sides of each example. 5

6 Classifying Matter All Matter Pure Substances Mixtures Can it be separated by a physical process? CompoundsElements YES NO Can it be broken down into simpler ones by chemical means? NOYES 6

7 Classifying Matter Classify each of these as an element, a compound, or a mixture: carbon dioxide nickel cocaine water compound element compound fluorine table salt soap sea water element compound mixture 7

8 Group Period The Periodic Table 8

9 A space filling model for a water molecule, H 2 O Oxygen atom Two hydrogen atoms A molecule is a fixed number of atoms held together by chemical bonds in a certain spatial arrangement. The chemical formula symbolically represents the type and number of each element present. 9

10 Many nonmetals occur as diatomic (made up of two atoms) molecules. H2H2 N2N2 O2O2 Cl 2 10

11 Prefixes are used to designate the number of each type of element: Naming Binary Compounds number of atomsprefix 1mono 2di 3tri 4tetra 5penta 6hexa 7hepta 8octa 9nona 10deca 11

12 Prefixes are used to designate the number of each type of element: Naming Binary Compounds of Nonmetals N 2 O = dinitrogen monoxide (laughing gas) P 2 O 5 =diphosphorous pentoxide Notice the dropped “a” from “penta” – when both the prefix and suffix (in this case “oxide”) end and start, respectively, in a vowel, the vowel of the prefix is typically dropped; pentoxide rather than pentaoxide. 12

13 13 The Bad Gases ♚ ♚ Carbon monoxide (CO) ♛ ♛ Ozone (O 3 ) ♜ ♜ Sulfur dioxide (SO 2 ) ♞ ♞ Nitrogen dioxide (NO 2 ) We’ll take a closer look at each of these each in turn…

14 Chemical reactions are characterized by the rearrangement of atoms when reactants are transformed into products. C + O 2 CO reactants product But the number of atoms on each side of the arrow must be equal (Law of Conservation of Mass). 2 C + O 2 2 CO (balanced) 2 carbon atomstwo carbon atoms 2 oxygen atomstwo oxygen atoms This is an example of a combustion reaction 14

15 2 C + O 2 2 CO Another look, pictorially – using space-filling models 15

16 Balancing equations: -if an element is present in just one compound on each side, balance it first -balance anything that exists as a free element last - balance polyatomic ions as a unit - check when done – same number of atoms, and same total charge (if any) on both sides C 3 H 8 + O 2 CO 2 + H 2 O C 3 H 8 + 5 O 2 3 CO 2 + 4 H 2 O 3 C atoms 8 H atoms 10 O atoms 3 C atoms 8 H atoms 10 O atoms 16

17 Coal + O 2 SO 2 (1-3% sulfur) 2 SO 2 + O 2 2 SO 3 Direct Source of Sulfur Trioxide Good News: Since 1985 we have seen a 55% reduction in SO 2 emissions in the U.S. 17

18 Direct Source of Nitrogen Oxides N 2 + O 2 + high temp 2 NO (nitrogen oxide) High temperatures from auto engine or coal-fired power plant NO is very reactive: 2 NO + O 2 2 NO 2 Simplified version of chemistry that occurs 18

19 Catalytic converters are used to catalyze the conversion of CO to CO 2 The converters also reduce the amount of Volatile Organic Compounds (VOCs) from tailpipe exhaust. One reason for removing tetraethyl lead from gasoline is that the lead gunked up or poisoned the catalysts in the converters. The other reason was to reduce the amount of lead in the air. 19

20 Ozone (O 3 ) If one breath of air contains 2 x 10 22 molecules and atoms, and the acceptable ozone level is 0.12 ppm, how many molecules of O 3 are in each breath? 2 x 10 22 molecules and atoms in a breath of air x 0.12 O 3 molecules 1 x 10 6 molecules and atoms in air = 2 x 10 15 O 3 molecules in a breath How many oxygen atoms are in each breath? 2 x 10 15 O 3 molecules x 3 O atoms___ 1 O 3 molecules = 6 x 10 15 O atoms 20

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