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Thermochemistry. Energy In this topic, we are interested in energy transfers Types of energy Definition: energy is the capacity to do work Kinetic energy.

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Presentation on theme: "Thermochemistry. Energy In this topic, we are interested in energy transfers Types of energy Definition: energy is the capacity to do work Kinetic energy."— Presentation transcript:

1 Thermochemistry

2 Energy In this topic, we are interested in energy transfers Types of energy Definition: energy is the capacity to do work Kinetic energy Energy produced by a moving object Potential energy Energy available due to objects position Radiant energy Solar energy Chemical energy Energy stored within chemical substances Thermal energy Energy associated with the random motion of particles and atoms We are interested in thermal energy for this topic

3 Conservation of Energy Different forms of energy can be converted into other forms of energy For example: a ball rolling down a hill converts its potential energy into kinetic energy. Through careful analysis, scientists have determined that the total energy of a system must be conserved. This means that energy cannot be created or destroyed by any process. But energy can be interconverted from one form to another. This also means that the energy of the universe must be held constant.

4 Thermochemistry Thermochemistry is the study of heat change in chemical reactions. Heat is the transfer of thermal energy between two bodies that are at different temperatures. To use thermochemistry we need to define our system and surroundings. The system is the part of the universe we are interested in studying. The system can be open, closed, or isolated. An open system allows for mass and energy to transfer. A closed system allows for energy to transfer but not mass. An isolated system will not allow mass nor energy to transfer. The surroundings are everything else.

5 Chemical processes A chemical process can be either endothermic or exothermic. An endothermic process is a process in which heat has to be supplied to the system in order for the reaction to proceed. An exothermic process is a process in which heat is released by the system when the reaction proceeds.

6 Thermodynamics Thermochemistry is a subtopic in the much broader area of thermodynamics. Thermodynamics is interested in studying changes in the state of a system. States of a system are the values for all of the relevant macroscopic properties Examples: composition, energy, temperature, pressure, and volume. Thermodynamics is governed by four laws. For our topic though, we are only interested in the first law

7 The First Law The first law of thermodynamics is basically a restatement of the conservation of mass. States that the energy gained or given off by the system must be absorbed or given off to the surroundings. Can be rewritten to give Δ E=q + w. q is the symbol for the heat q=ms Δ T m is mass s is specific heat Δ T is the change in temperature w is the symbol for work w=F x d F is the force and d is the distance that force is applied

8 For next time We will talk about enthalpy changes How to calculate them What they stand for Calorimetry Constant volume Constant pressure What each of these calculate

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