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100 400 300 200 500 100 Burn, baby Burn 400 300 200 500 100 Diagrams & Curves 400 300 200 500 100 400 300 200 500 100 400 300 200 500 Stoichiometry Redux Energizer Bunny Heat specifically
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Column 1, 100 What is the symbol for specific heat?
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Column 1, 200 In what units is specific heat typically expressed?
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Column 1, 300 Breaking bonds results in this type of ΔH.
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Column 1, 400 Potential energy Low High Reactants Products Step 1 Step 2 Which side of the reaction would the excess energy in the diagram above be represented?
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Column1, 500 If the same amount of energy is absorbed by sand and water, which one will heat up faster and why?
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Combustion (burning) is this kind of reaction. Column 2, 100
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Column 2, 200 Combustion requires this to occur.
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Column 2, 300 Combustion reactions always yield these two products.
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Calculate the amount of thermal energy (q) that is absorbed by the water. q = mcΔT c = 4.2 J/gc Column 2, 400 Mass of water100.0 g Initial water temp18.0 °C Mass of ethanol burned0.65 g Final water temp48.0 °C
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Column 2, 500 Write a balanced combustion reaction for methane (CH 4 )
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Column 3, 100 Where on the graph does a solid and liquid exist simultaneously?
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Column 3, 200 Boiling point?
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Column 3, 300 List three phase changes that are endothermic.
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Column 3, 400 What state is this substance in at STP?
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Column 3, 500 At 4 atm, the temperature of this substance is decreased from -10 °C to -80 °C. What phase change occurred?
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Column 4, 100 State the law of conservation of energy.
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Column 4, 200 What are the five main forms of energy?
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Column 4, 300 What 2 states can energy exist in?
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Column 4, 400 Breaking bonds is what kind of reaction?
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Column 4, 500 C 5 H 12 + 8O 2 5CO 2 + 6H 2 O + 3510kJ How much energy is released if 80 g of pentane are combusted?
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Column 5, 100 C 5 H 12 + 8O 2 5CO 2 + 6H 2 O + 3510kJ How much energy is released if 4.5 moles of pentane are burned?
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Column 5, 200 4Fe (s) + 3O 2(g) 2Fe 2 O 3(s) + 1625 kJ How many moles of oxygen are required to produce 12187.5 kJ of energy?
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Column 5, 300 Mass of water100.0 g Initial water temperature18.0 °C Mass of ethanol burned0.65 g Final water temperature48.0 °C Calculate the number of moles of ethanol (C 2 H 5 OH) consumed from the data above.
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Column 5, 400 C (s) + 2S (s) + 89.3 kJ CS 2(l) How many grams of carbon disulfide are produced from 267.9 kJ of energy?
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Calculate the molar heat of combustion (kJ/mol) based on the data above. C water = 4.2 J/gc ethanol (C 2 H 5 OH) Column 5, 500 Mass of water100.0 g Initial water temperature18.0 °C Mass of ethanol burned0.65 g Final water temperature48.0 °C
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