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Related Concept Videos

Enthalpy02:59

Enthalpy

49.9K
Chemists ordinarily use a property known as enthalpy (H) to describe the thermodynamics of chemical and physical processes. Enthalpy is defined as the sum of a system’s internal energy (E) and the mathematical product of its pressure (P) and volume (V):
49.9K
Energy Basics02:27

Energy Basics

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Chemical reactions, such as those that occur when you light a match, involve changes in energy as well as matter.
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Enthalpies of Chemical Changes01:26

Enthalpies of Chemical Changes

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The enthalpy change of a chemical reaction is the difference between the total enthalpy of the products and the reactants. This energy change for the molecules involved in a chemical reaction can be visualized through an energy diagram, where the lines represent the total enthalpy of the reactants and products, and the gap between them signifies the enthalpy change for the reaction. In an exothermic reaction, the system's enthalpy decreases, whereas it increases in an endothermic reaction.The...
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Enthalpies of Physical Changes01:22

Enthalpies of Physical Changes

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In thermodynamics, the enthalpy of a system reflects the amount of energy contained within it, which can be used to perform work. When we discuss physical changes in a substance, such as a phase transition from solid to liquid or liquid to gas, we often refer to the concept of enthalpy change.The standard enthalpy changes for a reaction or a physical process are defined as the difference in enthalpy between the products in their standard states and the reactants in their standard states, all...
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Thermochemical Equations02:55

Thermochemical Equations

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For a chemical reaction (the system) carried out at constant pressure – with the only work done caused by expansion or contraction – the enthalpy of reaction (also called the heat of reaction, ΔHrxn) is equal to the heat exchanged with the surroundings (qp).
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Emission Spectra02:39

Emission Spectra

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When solids, liquids, or condensed gases are heated sufficiently, they radiate some of the excess energy as light. Photons produced in this manner have a range of energies, and thereby produce a continuous spectrum in which an unbroken series of wavelengths is present.
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Combustion Chemistry of Fuels: Quantitative Speciation Data Obtained from an Atmospheric High-temperature Flow Reactor with Coupled Molecular-beam Mass Spectrometer
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Chemistry embraced by all

Stephen Matlin1, Goverdhan Mehta2, Henning Hopf3

  • 1Stephen Matlin is Adjunct Professor at the Institute of Global Health Innovation, Imperial College London, UK, and Head of Strategic Development for the International Organization for Chemical Sciences in Development. s.matlin@imperial.ac.uk.

Science (New York, N.Y.)
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No abstract available in PubMed .

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