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Chemical Equation for Hydrogen Combustion
The combustion reaction of hydrogen is described as
If the hydrogen is destroyed, the gas is the clearest and purest. The combustion reaction is related to the conversion of energy and is also important in the world.
The chemical equation of hydrogen combustion is as follows: $2H_ {2} + O_ {2}\ stackrel {ignited }{=\!=\!=} 2H_ {2} O $. The meaning of this formula is that the hydrogen of two molecules and the oxygen of one molecule combine to produce two molecules of water under the conditions of ignition.
The process of viewing the hydrogen combustion, the hydrogen molecule ($H_ {2} $) and the oxygen molecule ($O_ {2} $), under high temperature ignition, the chemical bond within the molecule is broken. Hydrogen molecules are split into hydrogen atoms, and oxygen molecules are split into oxygen atoms. Then, the hydrogen atoms and oxygen atoms are recombined and connected by covalent bonds to form water molecules ($H_ {2} O $).
The combustion of hydrogen requires a lot of energy. Because its product is only water, and there is absolutely no soot or harmful gases, it is a model of clean energy. At this time, seeking clean and sustainable energy, the reaction of hydrogen combustion will be used more widely, adding a strong force to the energy revolution in the world.
If the hydrogen is destroyed, the gas is the clearest and purest. The combustion reaction is related to the conversion of energy and is also important in the world.
The chemical equation of hydrogen combustion is as follows: $2H_ {2} + O_ {2}\ stackrel {ignited }{=\!=\!=} 2H_ {2} O $. The meaning of this formula is that the hydrogen of two molecules and the oxygen of one molecule combine to produce two molecules of water under the conditions of ignition.
The process of viewing the hydrogen combustion, the hydrogen molecule ($H_ {2} $) and the oxygen molecule ($O_ {2} $), under high temperature ignition, the chemical bond within the molecule is broken. Hydrogen molecules are split into hydrogen atoms, and oxygen molecules are split into oxygen atoms. Then, the hydrogen atoms and oxygen atoms are recombined and connected by covalent bonds to form water molecules ($H_ {2} O $).
The combustion of hydrogen requires a lot of energy. Because its product is only water, and there is absolutely no soot or harmful gases, it is a model of clean energy. At this time, seeking clean and sustainable energy, the reaction of hydrogen combustion will be used more widely, adding a strong force to the energy revolution in the world.
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