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Unit 2: Matter and Energy

Chemistry. Unit 2: Matter and Energy. L 3. Matter. Introductory Definitions. matter : anything having mass and volume. the amount of matter in an object. mass :. the pull of gravity on an object. weight :. volume :. the space an object occupies. units: L, dm 3 , mL, cm 3.

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Unit 2: Matter and Energy

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  1. Chemistry Unit 2: Matter and Energy

  2. L3 Matter Introductory Definitions matter: anything having mass and volume the amount of matter in an object mass: the pull of gravity on an object weight: volume: the space an object occupies units: L, dm3, mL, cm3 state of matter: solid, liquid, or gas

  3. composition: what the matter is made of water: copper: many groups of 2 H’s and 1 O many Cu atoms properties: describe the matter -- what it looks like, smells like; its mass, temp., etc. -- how it behaves atom: a basic building block of matter ~100 diff. kinds

  4. contain only one type of atom Elements 1. monatomic elements consist of unbonded, “like” atoms e.g., Fe, Al, Cu, He 2. polyatomic elements consist of several “like” atoms bonded together H2 O2 Br2 F2 I2 N2 Cl2 diatomic elements: “7 7 7” others: P4 S8

  5. allotropes: different forms of the same element in the same state of matter OXYGEN CARBON oxygen gas (O2) elemental carbon graphite ozone (O3) buckyball diamond

  6. molecule: a neutral group of bonded atoms O O2 2 O P P4 4 P Elements may consist of either molecules or unbonded atoms.

  7. Compounds …contain two or more different types of atoms …have properties that are different from those of their constituent elements Na (sodium): explodes in water table salt (NaCl) Cl2 (chlorine): poisonous gas

  8. neutron “bullet” U Ba Kr Atoms can only be altered by _______ means. nuclear Molecules can be altered by ________ means. chemical (i.e., chemical reactions, chemical changes) Atomic blast at Hiroshima e.g., Dehydration of sugar C12H22O11(s) 12 C(s) + 11 H2O(g) Electrolysis of water 2 H2O(l) 2 H2(g) + O2(g)

  9. Compound Composition All samples of a given compound have the same composition. Every sample of NaCl tastes the same, melts at the same temp., and is 39.3% Na and 60.7% Cl by mass.

  10. Phosgene gas (COCl2) is 12.1% carbon, 16.2% oxygen, and 71.7% chlorine by mass. Find # of g of each element in 254 g of COCl2. C: 254 g (0.121) = 30.7 g C O: 254 g (0.162) = 41.1 g O Cl: 254 g (0.717) = 182.1 g Cl

  11. A sample of butane (C4H10) contains 288 g carbon and 60 g hydrogen. Find… A. …total mass of sample = 348 g 288 g C + 60 g H B. …% of each element in butane = 0.828 % C = 82.8% C, 17.2% H = 0.172 % H = C. …how many g of C and H are in a 24.2 g sample C: 24.2 g (0.828) = 20.0 g C H: 24.2 g (0.172) = 4.2 g H

  12. A 550 g sample of chromium (III) oxide (Cr2O3) has 376 g Cr. How many grams of Cr and O are in a 212 g sample of Cr2O3? 68.4% Cr % Cr = and 31.6% O Cr: 212 g (0.684) = 145 g Cr O: 212 g (0.316) = 67 g O chromium (III) oxide

  13. Classifying Matter (Pure) Substances …have a fixed composition …have fixed properties ELEMENTS COMPOUNDS e.g., Fe, N2, S8, U e.g., H2O, NaCl, HNO3 sulfur (S8) sodium chloride (NaCl) Pure substances have a chemical formula.

  14. Mixtures two or more substances mixed together …have varying composition …have varying properties The substances are NOT chemically bonded, and they… retain their individual properties. Tea, orange juice, oceans, and air are mixtures.

  15. salt water Kool Aid bronze (Cu + Sn) pewter (Pb + Sn) brass (Cu + Zn) Two Types of Mixtures homogeneous: (or solution) particles are microscopic; sample has same composition and properties throughout; evenly mixed e.g., alloy: a homogeneous mixture of metals e.g.,

  16. tossed salad raisin bran paint snowy-bulb gifts Two Types of Mixtures (cont.) heterogeneous: different composition and properties in the same sample; unevenly mixed e.g., suspension: settles over time e.g.,

  17. Contrast… 24K GOLD 14K GOLD 24/24 atoms are gold 14/24 atoms are gold mixture of gold & copper pure gold element homogeneous mixture Au Au + Cu

  18. PURE SUBSTANCE MIXTURE ELEMENT COMPOUND HETEROGENEOUS HOMOGENEOUS Chart for Classifying Matter MATTER

  19. A sample of bronze contains 68 g copper and 7 g tin. A. Find total mass of sample. = 75 g 68 g Cu + 7 g Sn B. Find % Cu and % Sn. and 9.3% Sn 90.7% Cu % Cu = C. How many grams of each element does a 346 g sample of bronze contain? (Bronze is a mixture and isn’t necessarily always 90.7% Cu and 9.3% Sn.) We don’t know. However, assuming these % are correct… Cu: 346 g (0.907) = 314 g Cu (and 32 g Sn)

  20. Separating Mixtures …involves physical means, or physical changes 1. sorting: by color, shape, texture, etc. 2. filter: particle size is different

  21. Separating Mixtures (cont.) 3. magnet: one substance must contain iron some substances dissolve more easily than others 4. chromatography:

  22. decant: to pour off the liquid blood after high- speed centrifuging Separating Mixtures (cont.) 5. density: “sink vs. float” perhaps use a centrifuge

  23. thermometer water out (warmer) water in (cooler) more-volatile substance condenser (i.e., the one with the lower boiling point) mixture more-volatile substance, now condensed heat source Separating Mixtures (cont.) 6. distillation: different boiling points

  24. No chemical reactions are needed to separate mixtures; substances are NOT bonded.

  25. Density m D V liquids and gases • how tightly packed the particles are • A physical and intensive prop. Density = Typical units: g/cm3 for solids g/mL for fluids

  26. V = ? To find volume, use… 1. a formula V = p r2 h V = l w h 2. water displacement Vfinal Vinit Vobject = Vfinal – Vinit

  27. ** Density of water = 1.0 g/mL = 1.0 g/cm3 Things that are “less dense” float in things that are “more dense.” (And things that are “more dense” sink in things that are “less dense.” D < 1 g/cm3 D > 1 g/cm3 D < 1 g/cm3 D < 1 g/cm3 The density of a liquid or solid is nearly constant, no matter what the sample’s temperature. Density of gases is highly dependent on temperature.

  28. m D V V • Density Calculations 1. A sample of lead (Pb) has mass 22.7 g and volume 2.0 cm3. Find sample’s density. = 11.35 2. Another sample of lead occupies 16.2 cm3 of space. Find sample’s mass. m = D V = 184 g

  29. m m D V 1.8 cm 1.5 cm 3. A 119.5 g solid cylinder has radius 1.8 cm and height 1.5 cm. Find sample’s density. V = p r2 h = p (1.8 cm)2(1.5 cm) = 15.3 cm3 = 7.81

  30. m m D V 8.2 cm 5.1 cm 4.7 cm 4. A 153 g rectangular solid has edge lengths 8.2 cm, 5.1 cm, and 4.7 cm. Will this object sink in water? (Find object’s density and compare it to water’s density.) V = l w h = 8.2 cm (5.1 cm)(4.7 cm) = 197 cm3 No; it floats. < 1 = 0.78

  31. ONE OF THESE AND ONE OF THESE Properties of Matter CHEMICAL properties tell how a substance reacts with other substances. PHYSICAL properties can be observed without chemically changing the substance. EXTENSIVE properties depend on the amount of substance present. INTENSIVE properties do not depend on the amount of substance.

  32. Examples: P, I electrical conductivity……………………… C, I reactivity with water………………………... P, E heat content (total energy)………………… P, I ductile: can be drawn (pulled) into wire….. malleable: can be hammered into shape… P, I P, I brittle…………………………………………. P, I magnetism……………………………………

  33. Stop

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