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Classifying Matter, Energy, Properties & Changes

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Presentation on theme: "Classifying Matter, Energy, Properties & Changes"— Presentation transcript:

1 Classifying Matter, Energy, Properties & Changes
STUDY: Universe Diagram Chapter 3 Review Packet PRACTICE: p.44, #7-15 pp #24-40

2 Heat Calculations STUDY: Thermal Energy Calculations notes QUIZ
PRACTICE: pp , #22-28 pp #41-49

3 Periodic Table STUDY: Mapping the Periodic Table
Metals vs. Non-metals Families of Elements PRACTICE: pp.82-83, #31-46 p. 181 #19-23, 25

4 Periodic Trends STUDY: Notes on 6 Trends (Notecard)
Periodic Properties Worksheet Periodic Law (Mendeleev’s Original AND Moseley’s Revision) PRACTICE: pp , #48-69 pp #10-37

5 Nomenclature & Formula Writing
STUDY: Flow Diagram on back of Orange Oxidation Numbers Chart, Worksheet: Nomenclature & Formula Writing, and QUIZ PRACTICE: pp , #19-29, 31-34, pp , #15-43

6 Heat Calculations How much energy is released as a g piece of manganese cools from 41.9°C to 29.4°C? (Refer to Table A-3 in the orange book for specific heat capacities of elements.) If an g piece of cobalt at 92.8°C is dropped into mL of water at 20.7°C, what will the final temperature of the system be? Some metal shot with a mass of g at 88.8°C is dropped into 75.7 mL of water at 23.3°C. The water temperature rises to 26.8°C. What is the specific heat capacity of the metal?

7 Heat Calculations How much energy is released as a g piece of manganese cools from 41.9°C to 29.4°C? (Refer to Table A-3 in the orange book for specific heat capacities of elements.) ANS=196 J If an g piece of cobalt at 92.8°C is dropped into mL of water at 20.7°C, what will the final temperature of the system be? ANS=21.6°C Some metal shot with a mass of g at 88.8°C is dropped into 75.7 mL of water at 23.3°C. The water temperature rises to 26.8°C. What is the specific heat capacity of the metal? ANS=0.600 J/gC°

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