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11.1: Introduction to Thermochemistry

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    Outline of Thermochemistry

    • Energy Basics
    • Calorimetry
    • Enthalpy
    • Strengths of Ionic and Covalent Bonds
    A match held in a person’s hand is ignited as it is scratched along the rough surface of a match box.
    Figure 1. Sliding a match head along a rough surface initiates a combustion reaction that produces energy in the form of heat and light. (credit: modification of work by Laszlo Ilyes)

    Chemical reactions, such as those that occur when you light a match, involve changes in energy as well as matter. Societies at all levels of development could not function without the energy released by chemical reactions. In 2012, about 85% of US energy consumption came from the combustion of petroleum products, coal, wood, and garbage. We use this energy to produce electricity (38%); to transport food, raw materials, manufactured goods, and people (27%); for industrial production (21%); and to heat and power our homes and businesses (10%). While these combustion reactions help us meet our essential energy needs, they are also recognized by the majority of the scientific community as a major contributor to global climate change.

    Useful forms of energy are also available from a variety of chemical reactions other than combustion. For example, the energy produced by the batteries in a cell phone, car, or flashlight results from chemical reactions. This chapter introduces many of the basic ideas necessary to explore the relationships between chemical changes and energy, with a focus on thermal energy.

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    11.1: Introduction to Thermochemistry is shared under a not declared license and was authored, remixed, and/or curated by LibreTexts.

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