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Ch. 2 - Matter and Change 2.1 Properties of Matter 1
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Recall… From ch. 1… Matter – anything with mass & volume (e.g., air; non-e.g., heat) Understanding matter begins with observing properties. 2
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Describing Matter “Types” of properties: Extensive *or* Intensive
depends upon amount (mass, volume) *or* Intensive depends upon type of matter (hardness, color, density) 3
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Identifying Substances
AND Physical Property observed without changing the composition *or* Chemical Property (pg. 53) observed when matter changes its composition; reactivity 4
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Identifying Substances
matter with uniform & definite composition; “pure” “Since a substance has identical composition, every sample has identical intensive properties.” 5
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States of Matter Three states of matter Solid, liquid, gas 6
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Indefinite shape Indefinite volume Indefinite shape Definite volume
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States of Matter Solid Definite shape & definite volume;
a solid is its own container Particles tightly packed; orderly Rigid; nearly incompressible Expand slightly when heated 8
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States of Matter Liquid Indefinite shape, definite volume;
takes on shape of container Particles close together; free to move Not rigid; Almost incompressible Expand slightly when heated 9
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States of Matter Gas Indefinite shape and indefinite volume
takes shape and volume of container Particles very far apart; mostly “empty space” Easily compressible 10
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States of Matter Vapor o 27 C
The gaseous state of a substance that normally exists as a solid or liquid. o 27 C 11
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Physical Changes Reversible (Irreversible)
Physical changes do not change the composition (identity) of matter. Reversible (Irreversible) The change can “undone” Able to retrieve original sample 12
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Physical Changes Most physical changes involve
a change in temperature. Increase temperature, particles move faster (more kinetic energy). 13
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2.2 Classifying Mixtures Mixture – a physical blend of 2+ substances
For example: Air = nitrogen + oxygen + carbon dioxide + argon A substance has fixed composition; the composition of a mixture varies. 14
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Classifying Mixtures Phase – any distinct part within a mixture.
Two types of mixtures: 1. Heterogeneous – a mixture that is not uniform in its composition; 2+ phases 2. Homogeneous – a mixture with uniform composition throughout; single phase 15
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Separating Mixtures Physical properties can be used to separate mixtures. Filtration – separating a solid from a liquid in a heterogeneous mixture Distillation – separating the components of a liquid homogeneous mixture by their boiling points Chromatography – separating a mixture based on a differences in solubility 16
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Distillation Filtration Chromotography 17
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2.3 Elements & Compounds Substances are classified as element or compound. Element – simplest form of matter that has unique properties. Hydrogen = H carbon = C oxygen = O sodium = Na chlorine = Cl etc… 18
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2.3 Elements & Compounds Compound – a substance composed of 2+ elements chemically combined in fixed proportion. Water = H2O table salt = NaCl carbon dioxide = CO2 sucrose = C12H22O11 Compounds can only be broken down into simpler substances by chemical means. There is no chemical process that will break elements down into simpler substances. 19
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Properties of Compounds
Compounds have different properties than the elements that make them up. SODIUM SODIUM CHLORINE = CHLORIDE soft, silvery metal; yellow/green gas; white crystal; reacts w/ water; reacts with ammonia; seasoning & poisonous poisonous preserves food 20
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Properties of Compounds
Compounds have different properties than the elements that make them up. SODIUM SODIUM CHLORINE = CHLORIDE soft, silvery metal; yellow/green gas; white crystal; reacts w/ water; reacts with ammonia; seasoning & poisonous poisonous preserves food 21
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Water Hydrogen + Oxygen
Breaking Down Compounds Chemical Change – a change in the composition of matter; indicated as an arrow: Sugar Carbon + Water Water Hydrogen + Oxygen Chemical Change COMPOUND ELEMENT COMPOUND Chemical Change COMPOUND ELEMENT ELEMENT 22
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ELECTROLYSIS OF WATER: H2O Hydrogen + Oxygen
“to break” 23
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Fig. 2.11 separated physically separated chemically 24
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Symbols & Formulas Chemists use chemical symbols to represent elements, and chemical formulas to represent compounds. For example: symbol: sodium = Na hydrogen = H chlorine = Cl oxygen = O formula: salt = NaCl water = H2O 25
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2.4 Chemical Changes Chemical Property
ability to undergo a chemical change; “reactivity”; “behavior” observed when matter changes its composition can be used to identify matter e.g., burn, rot, rust, decompose, ferment, explode, corrode, oxidize, etc… 26
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2.4 Chemical Changes Chemical Change
change in the composition of matter a.k.a. chemical reaction REACTANT(S) PRODUCT(S) starting material finishing material; “new” substance 27
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Recognizing Chemical Changes
Possible “clues” to a chemical change: Transfer of energy (i.e. light &/or heat given off) Change in color Production of gas Formation of precipitate (a solid that forms out of a liquid) Clues do not necessarily confirm chemical change. 28
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Conservation of Mass The Law of Conservation of Mass
Mass is neither created nor destroyed in any chemical reaction. Mass of reactants = mass of products 29
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