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Chemical Properties & Physical and Chemical Changes

Chemical Properties & Physical and Chemical Changes. Physical changes are those changes that do not result in the production of a new substance.  If you melt a block of ice, you still have H 2 O at the end of the change.   .

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Chemical Properties & Physical and Chemical Changes

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  1. Chemical Properties & Physical and Chemical Changes

  2. Physical changes are those changes that do not result in the production of a new substance.  If you melt a block of ice, you still have H2O at the end of the change.   

  3. If you break a bottle, you still have glass.  Painting your nails will not stop them from being fingernails.  Some common examples of physical changes are: melting, freezing, condensing, breaking, crushing, cutting, and bending.

  4. Some, but not all physical changes can be reversed. You could refreeze the water into ice, but you cannot put your hair back together if you don’t like your haircut!

  5. Special types of physical changes where any object changes state, such as when water freezes or evaporates, are sometimes called change of state operations.

  6. CHEMICAL PROPERTIES Chemical properties can ONLY be observed AS the substances are changing into different substances.

  7. Chemical changes, or chemical reactions, are changes that result in the production of another substance. 

  8. FLAMMABILITY: A material’s ability to BURN in the presence of OXYGEN

  9. REACTIVITY:How readily (easily) a substance combines chemically with other substances.

  10. Which has higher reactivity? A 14 karat gold ring or a cheap metal ring from the vending machine at the grocery store? What is your evidence?

  11. When you burn a log in a fireplace, you are carrying out a chemical reaction that releases carbon.  When you light your Bunsen burner in lab, you are carrying out a chemical reaction that produces water and carbon dioxide. 

  12. Common examples of chemical changes that you may be somewhat familiar with are; digestion, respiration, photosynthesis, burning, and decomposition. 

  13. Physical or Chemical Change? • Painting Wood • PHYSICAL

  14. Physical or Chemical Change? • Burning Paper • CHEMICAL

  15. Physical or Chemical Change? • Digestion of food • CHEMICAL

  16. Physical or Chemical Change? • Sugar dissolving in water • PHYSICAL

  17. Physical or Chemical Change? • Iron turning red when heated • PHYSICAL

  18. Physical or Chemical Change? • Evaporation • PHYSICAL

  19. Physical or Chemical Change? • A pond freezing in winter • PHYSICAL

  20. Physical or Chemical Change? • Melting ice • PHYSICAL

  21. Physical or Chemical Change? • Cutting wire • PHYSICAL

  22. Physical or Chemical Change? • Painting fingernails • PHYSICAL

  23. Physical or Chemical Change? • Cutting fabric • PHYSICAL

  24. Physical or Chemical Change? • Baking muffins • CHEMICAL

  25. Physical or Chemical Change? • Shattering glass • PHYSICAL

  26. Physical or Chemical Change? • Decomposition of old leaves • CHEMICAL

  27. Physical or Chemical Change? • Wrinkling a shirt • PHYSICAL

  28. Physical or Chemical Change? • An old nail rusting • CHEMICAL

  29. Some, but not all physical changes can be reversed. You could refreeze the water into ice, but you cannot put your hair back together if you don’t like your haircut!

  30. Classify each statement as physical or chemical property/change. • Pure metals have a higher luster (are shiny and reflect light). • The surfaces of some metals become dull when exposed to air. • Nitrogen gas, a relatively nonreactive material at room temperature, can form nitrogen oxides at the high temperatures of an operating automobile engine. • Milk turns sour if left too long at room temperature. • Diamonds are hard enough to be used as a coating for drill bits. • Leavened bread dough increases in volume if it allowed to “rise” before baking. • Generally, metals are better conductors of heat and electricity than are nonmetals. • Unreactive argon gas, rather than air, is used to fill many light bulbs to prevent the metal filament wire inside the bulb from being destroyed through chemical reactions. • Metals are typically ductile (can be drawn into wires).

  31. Classify each statement as physical or chemical property/change. P C • Pure metals have a higher luster (are shiny and reflect light). • The surfaces of some metals become dull when exposed to air. • Nitrogen gas, a relatively nonreactive material at room temperature, can form nitrogen oxides at the high temperatures of an operating automobile engine. • Milk turns sour if left too long at room temperature. • Diamonds are hard enough to be used as a coating for drill bits. • Leavened bread dough increases in volume if it allowed to “rise” before baking. • Generally, metals are better conductors of heat and electricity than are nonmetals. • Unreactive argon gas, rather than air, is used to fill many light bulbs to prevent the metal filament wire inside the bulb from being destroyed through chemical reactions. • Metals are typically ductile (can be drawn into wires). C C P C P C P

  32. Real Life Problem: Designing the Penny • COST of materials is an issue when manufacturing coins and paper money. • Early 1980’s copper became too expensive to be used as primary metal in pennies • Zinc replaced most of the copper in all post 1982 pennies PROs - Zinc – about as hard; almost as dense, readily available and less expensive than copper CONs – more chemically reactive (zinc-plated steel pennies created in 1943 corroded and looked considerably different)

  33. Solved the penny issue in early 1980s • Copper properties best fit for outside of the coin and zinc properties best fit for inside of the coin (increase coin’s durability and maintain familiar appearance)

  34. http://vital.cs.ohiou.edu/steamwebsite/downloads/ChangeLab.swfhttp://vital.cs.ohiou.edu/steamwebsite/downloads/ChangeLab.swf Online Quiz http://www.teachertube.com/viewVideo.php?video_id=214083

  35. What is Density? If you take the same volume of different substances, then they will weigh different amounts. Density is the Mass per unit Volume Wood Water Iron 1 cm3 1 cm3 1 cm3 IRON 0.50 g 1.00 g 8.00 g Q) Which has the greatest mass and therefore the most dense? http://www.youtube.com/watch?v=GMNpPgLT8Fk

  36. Density Equation: g M = D x V V = M / D mass Density = Volume mL (for liquids) or cm3 (for solids) g/mL or g/cm-3 http://science360.gov/obj/video/f2511bad-b43f-4dbd-84f9-ace57941ac90/mass-volume-density NHL Hockey Rinks

  37. DENSITY OF A REGULAR SOLID m = 240 g • Find the Mass of the solid on a balance. • Measure the three lengths and calculate the Volume. (ie V = l x w x h ) • Calculate the Density. 2.0 cm = m = 240 =10.0 g/cm3 V 24 3.0 cm 4.0 cm

  38. DENSITY OF AN IRREGULAR SOLID 1. Find the Mass of the solid on a balance. 2. Fill the Measuring Cylinder with Water to a known Volume. 3. Add the Object. 4. Work out the Volume of Water that is displaced. 5. Calculate the Density. m = 360 g 80 ml 50 ml Density = m = 360 =12.0 g/cm3 V 30

  39. DENSITY OF AN IRREGULAR SOLID 1. Find the mass of the solid on a balance. 2. Add water until just overflowing. 3. Place a Measuring Cylinder under the spout. 4. Add the Object. 5. Collect the Water and read off the Volume. 6. Calculate Density • OR use a Eureka (overflow) Can to find the Volume. m = 440 g 40.0 ml Density = m = 440 =11.0 g/cm3 V 40

  40. DENSITY OF A LIQUID • Find the Mass of an empty graduated cylinder. 2. Add a certain Volume of Liquid. • Find the Mass of the Measuring Cylinder and Liquid 4. Calculate the Mass of Liquid. • How? • Mass of Liquid = Mass of Measuring Cylinder and Liquid – Mass of empty Measuring Cylinder • Calculate Density of Liquid. 25.0 g 25.0 g 45.0 g 20.0 ml 45 – 25 = 20 g Density = m = 20 =1.00 g/mL V 20

  41. Density Practice Problems D = 25.0g 29.4cm3 D = 0.85g/cm3 Density = m V • What is the density of a piece of wood that has a mass of 25.0 grams and a volume of 29.4 cm3? 2. A piece of wood that measures 3.0cm by 6.0cm by 4.0 cm has a mass of 80.0 grams. What is the density of the wood? • Would the piece of wood in #2 float in water? Yes, the wood’s density is less than the density of water (1.0g/cm3) Volume = l x w x h Density = m V D = 80.0g 72.0cm3 D = 0.85g/cm3 V = 3.0cm x 6.0cm x 4.0cm V = 72.0cm3 m = 80.0g

  42. An ice cube measuring 5.80cm by 5.80cm by 5.80cm • has a density of 0.917g/cm3. What is the mass? • 5. The density of aluminum is 2.7g/ml. If the mass of a piece of aluminum is 244g, what is the volume of the aluminum? V = 5.8cm x 5.8cm x 5.8cm V = 195.11cm3 D = 0.917g/cm3 Volume = l x w x h Density = m V m = D x V m = 0.917g/cm3 x 195.11cm3 m = 178.92g V = 244g 2.7g/ml V = 90.37ml D = 2.7g/ml m = 244g D = m V V = m D

  43. How to TEST for GASSES! Oxygen (O2), Hydrogen (H2) & Carbon Dioxide (CO2)  colorless and odorless (for the most part)…. SOOO how can you tell which gas is emitted after a chemical reaction????? http://www.youtube.com/watch?v=LiAvDpl5aJA

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