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Thermochemistry Chapter 17
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Thermochemistry Thermochemistry is the study of energy changes that occur during chemical reactions and changes in state of matter.
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Thermochemistry The energy is stored in bonds between atoms and is called chemical energy. It is a form of potential energy.
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Heat Heat (q) is energy transferred from one object to another because of the temperature difference between them. Heat always flows from a warmer object to a cooler object.
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Types of Reactions In an endothermic process a reaction absorbs/requires/gains heat. – Melting, photosynthesis, cooking In an exothermic process a reaction releases/loses heat. – Freezing, cellular respiration, fire
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Measuring Heat Heat flow is measured in two common units, the calorie (c) and the joule (J). A calorie is the amount of heat needed to raise the temperature of one gram of water 1°C. 1 J = 0.2390 cal 4.184 J = 1 cal
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Measuring Heat The specific heat of a substance is the amount of heat it takes to raise the temperature of 1 g of a substance 1°C Specific heat (C) is calculated with the following equation: C = q m x ΔT Where q is heat, m is mass, and ΔT is change in temperature
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Practice specific heat problem The temperature of a 98.4 g piece of copper increases from 25°C to 48°C when copper absorbs 849J of heat. What is the specific heat of copper?
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Practice specific heat problem The temperature of a 98.4 g piece of copper increases from 25°C to 48°C when copper absorbs 849J of heat. What is the specific heat of copper? C = q m x ΔT
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Practice specific heat problem The temperature of a 98.4 g piece of copper increase from 25°C to 48°C when copper absorbs 849J of heat. What is the specific heat of copper? C = 849J (98.4g) x (23°C)
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Practice specific heat problem The temperature of a 98.4 g piece of copper increase from 25°C to 48°C when copper absorbs 849J of heat. What is the specific heat of copper? C = 849J (98.4g) x (23°C) C = 0.375132556
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Practice specific heat problem The temperature of a 98.4 g piece of copper increase from 25°C to 48°C when copper absorbs 849J of heat. What is the specific heat of copper? C = 849J (98.4g) x (23°C) C = 0.375132556 = 0.38 J/g ° C
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One more practice problem When 435 J of heat is added to 3.4 g of olive oil at 21°C, the temperature increases to 85°C. What is the specific heat of the olive oil? C = q m x ΔT
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One more practice problem When 435 J of heat is added to 3.4 g of olive oil at 21°C, the temperature increases to 85°C. What is the specific heat of the olive oil? C = 435 3.4 g x 64°C
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One more practice problem When 435 J of heat is added to 3.4 g of olive oil at 21°C, the temperature increases to 85°C. What is the specific heat of the olive oil? C = 435 3.4 g x 64°C = 1.999080882 = 2.0 J/g ° C
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Enthalpy The heat constant of a system is called enthalpy (H), measured in Joules (J) The heat absorbed or released by a system or reaction is called the change in enthalpy or ΔH You can calculate enthalpy with this equation: ΔH=-m x C x ΔT m= mass, C = specific heat, ΔT = change in temp
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Practice Enthalpy Problem 50.0g of water is heated from 25°C to 32°C. The specific heat of water is 4.18 J/g°C. Calculate the enthalpy change in this reaction.
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Practice Enthalpy Problem 50.0g of water is heated from 25°C to 32°C. The specific heat of water is 4.18 J/g°C. Calculate the enthalpy change in this reaction. ΔH=-m x C x ΔT
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Practice Enthalpy Problem 50.0g of water is heated from 25°C to 32°C. The specific heat of water is 4.18 J/g°C. Calculate the enthalpy change in this reaction. ΔH=-(50.0g) x (4.18) x (32-25)
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Practice Enthalpy Problem 50.0g of water is heated from 25°C to 32°C. The specific heat of water is 4.18 J/g°C. Calculate the enthalpy change in this reaction. ΔH=-(50.0g) x (4.18) x (32-25) =-1463 J = -1500 J
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Another Practice Calculate the change in enthalpy when you increase the temperature of 250g of water from 20 to 46C. The specific heat of water is 4.18 J/g°C.
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Another Practice Calculate the change in enthalpy when you increase the temperature of 250g of water from 20 to 46C. The specific heat of water is 4.18 J/g°C. ΔH=-m x C x ΔT
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Another Practice Calculate the change in enthalpy when you increase the temperature of 250g of water from 20 to 46C. The specific heat of water is 4.18 J/g°C. ΔH=-(250) x (4.18) x (46-20)
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Another Practice Calculate the change in enthalpy when you increase the temperature of 250g of water from 20 to 46C. The specific heat of water is 4.18 J/g°C. ΔH=-(250) x (4.18) x (46-20)= -27170
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Another Practice Calculate the change in enthalpy when you increase the temperature of 250g of water from 20 to 46C. The specific heat of water is 4.18 J/g°C. ΔH=-(250) x (4.18) x (46-20)= -27170 =-30000J
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Math Practice Complete the practice problems for specific heat and enthalpy.
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Phase Changes: Freezing and Melting When a substance melts, it absorbs heat, called the heat of fusion.
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Phase Changes: Freezing and Melting When a substance freezes, it loses heat, called the heat of solidification. The quantity of heat absorbed by one mole of a melting solid is exactly the same as the quantity of heat released when one mole of the liquid freezes.
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Phase changes: Vaporization and Condensation When liquid evaporates, it absorbs heat, called heat of vaporization.
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Phase changes: Vaporization and Condensation When gas condenses to liquid, it releases heat, called heat of condensation. The quantity of heat absorbed by a vaporizing liquid is exactly the same as the quantity of heat released when the vapor condenses.
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Specific Heat of Metals Lab 1. Read and annotate the lab procedure. 2. Complete the pre-lab. 3. This is a stand-alone lab report! You will either handwrite or type and print it – it does not go in your notebooks! 4. Be ready to conduct the lab next class period.
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