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Thermochemistry -- The Flow of Energy: Heat -- Thermochemistry: the study of heat changes in chemical reactions Chemical potential energy: energy stored.

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Presentation on theme: "Thermochemistry -- The Flow of Energy: Heat -- Thermochemistry: the study of heat changes in chemical reactions Chemical potential energy: energy stored."— Presentation transcript:

1 Thermochemistry -- The Flow of Energy: Heat -- Thermochemistry: the study of heat changes in chemical reactions Chemical potential energy: energy stored within the structural units of chemical substances

2 Thermochemistry -- The Flow of Energy: Heat -- Chemical System Types System typeDescription  q (change in heat) Endothermic System absorbing heat from the surroundings  q > 0 Exothermic System releasing heat to the surroundings  q < 0

3 Thermochemistry -- The Flow of Energy: Heat -- Law of Conservation of Energy: In any chemical or physical process, energy is neither created nor destroyed

4 Thermochemistry -- The Flow of Energy: Heat -- The calorie Expressed as a c (lower case) Quantity of heat needed to raise the temperature of 1 g of pure water 1  C Calorie Expressed as a C (upper case) Dietary Calorie 1 Calorie = 1 kilocalorie = 1000 calories

5 Thermochemistry -- An Intro Video --

6 Thermochemistry -- The Flow of Energy: Heat -- Joule SI unit of heat and energy Raises the temperature of 1 g of pure water 0.2390  C 4.184 J = 1 cal Heat Capacity Amount of heat needed to increase the temperature of an object exactly 1  C Will change depending on the mass and chemical composition Specific Heat Quantity of heat needed to raise the temperature of 1g of substance 1 o C

7 Thermochemistry -- The Flow of Energy: Heat -- Specific Heat Capacity Heat (q) specific heat capacity (C) Mass (m) change in temperature (  T) q = mC  T

8 Thermochemistry -- The Flow of Energy: Heat -- Example: How many kilojoules of heat are absorbed when 1.00 L of water is heated from 18  C to 85  C? Solution: q = mC  T q = 1000g x 4.18 J x 67 o C g o C q = 2.8E5 J 1 KJ 1000 J = 280 KJ

9 Thermochemistry -- The Flow of Energy: Heat -- Example: A chunk of silver has a heat capacity of 42.8 J/  C. If the silver has a mass of 181 g, calculate the specific heat of silver. Solution: q = mC  T 42.8 J = 181g x C x 1 O C C = 0.236 J/g o C

10 Thermochemistry -- Measuring and Expressing Heat Changes -- Your Turn: The temperature of a piece of copper with a mass of 95.4 g increases from 20.0 o C to 40.0 o C when the metal absorbs 849 J of heat. What is the specific heat of copper? q = mC  T 849 J = 95.4g x C x 23.0 o C C = 0.387 J/g x o C

11 Thermochemistry -- Measuring and Expressing Heat Changes -- Calorimeter

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