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<?xml version='1.0' encoding='utf-8'?>
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<node id="氧化铁">
<data key="d0">氧化铁</data>
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<data key="d2">氧化铁是一种化学物质,可以与硝酸发生反应。</data>
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<node id="硝酸">
<data key="d0">硝酸</data>
<data key="d1">category</data>
<data key="d2">硝酸是一种强酸,可以与氧化铁发生化学反应。</data>
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<node id="氢气">
<data key="d0">氢气</data>
<data key="d1">category</data>
<data key="d2">氢气是一种化学元素,可以与氧气燃烧生成水。</data>
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<data key="d0">氧气</data>
<data key="d1">category</data>
<data key="d2">氧气是一种化学元素,可以与氢气燃烧生成水。</data>
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<data key="d0">氧化铁和硝酸的反应方程式</data>
<data key="d1">event</data>
<data key="d2">描述氧化铁与硝酸发生的化学反应过程。</data>
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<node id="氢气与氧气燃烧的方程式">
<data key="d0">氢气与氧气燃烧的方程式</data>
<data key="d1">event</data>
<data key="d2">描述氢气与氧气燃烧生成水的化学反应过程。</data>
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<data key="d0">equation_2789d3d5a38bc8d48e3c3b8af351f358</data>
<data key="d1">equation</data>
<data key="d2">```json
{
"detailed_description": "The given equation represents a chemical reaction between iro...</data>
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<node id="Iron(II) Oxide">
<data key="d0">Iron(II) Oxide</data>
<data key="d1">category</data>
<data key="d2">Iron(II) Oxide (FeO) is a chemical compound involved in the reaction with nitric acid.</data>
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<node id="Nitric Acid">
<data key="d0">Nitric Acid</data>
<data key="d1">category</data>
<data key="d2">A chemical mentioned in comparison to demonstrate another example of redox reactions.&lt;SEP&gt;Nitric Acid (HNO₃) is a chemical compound that reacts with iron(II) oxide to produce iron(III) nitrate and other byproducts.</data>
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<data key="d0">Iron(III) Nitrate</data>
<data key="d1">category</data>
<data key="d2">Iron(III) Nitrate (Fe(NO₃)₃) is a product of the chemical reaction between iron(II) oxide and nitric acid.</data>
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<data key="d0">Hydrogen Gas</data>
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<data key="d2">Hydrogen Gas (H₂) is a byproduct released during the chemical reaction.</data>
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<node id="Nitrogen Dioxide">
<data key="d0">Nitrogen Dioxide</data>
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<data key="d2">Nitrogen Dioxide (NO₂) is a byproduct released during the chemical reaction.</data>
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<node id="Chemical Reaction">
<data key="d0">Chemical Reaction</data>
<data key="d1">event</data>
<data key="d2">The chemical reaction between iron(II) oxide and nitric acid under heat produces iron(III) nitrate, hydrogen gas, and nitrogen dioxide.&lt;SEP&gt;The chemical reaction represents the transformation of hydrogen and oxygen into water, adhering to the law of conservation of mass.</data>
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<data key="d0">Heat (Δ)</data>
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<data key="d2">Heat is a required condition for the chemical reaction to occur, indicated by the Δ symbol in the equation.</data>
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<data key="d0">LaTeX Format</data>
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<data key="d2">The equation is presented in LaTeX format, a typesetting system commonly used for mathematical and scientific documents.</data>
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<data key="d0">Mathematical Analysis</data>
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<data key="d2">The JSON structure provides a detailed mathematical and chemical analysis of the reaction.</data>
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<data key="d2">The analysis is presented in JSON format, a lightweight data-interchange format.</data>
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<data key="d0">Combustion of Hydrogen (equation)</data>
<data key="d1">equation</data>
<data key="d2">The equation describes the synthesis of water from hydrogen and oxygen, representing a fundamental combustion reaction. It is stoichiometrically balanced, exothermic, and critical in energy applications and chemical education.</data>
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<node id="Hydrogen Gas (H₂)">
<data key="d0">Hydrogen Gas (H₂)</data>
<data key="d1">category</data>
<data key="d2">Hydrogen gas is a diatomic molecule that acts as a reactant in the chemical equation, combining with oxygen to form water.</data>
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<node id="Oxygen Gas (O₂)">
<data key="d0">Oxygen Gas (O₂)</data>
<data key="d1">category</data>
<data key="d2">Oxygen gas is a diatomic molecule that reacts with hydrogen gas to produce water in the chemical equation.</data>
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<node id="Water (H₂O)">
<data key="d0">Water (H₂O)</data>
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<data key="d2">Water is the product of the chemical reaction between hydrogen and oxygen, formed in a 2:1 ratio with hydrogen.</data>
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<node id="Stoichiometry">
<data key="d0">Stoichiometry</data>
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<data key="d2">Stoichiometry refers to the quantitative relationships between reactants and products in the chemical equation, ensuring atomic conservation.</data>
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<node id="Combustion">
<data key="d0">Combustion</data>
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<data key="d2">Combustion is an application domain of the reaction, where hydrogen and oxygen react exothermically to produce water and energy.</data>
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<node id="Fuel Cells">
<data key="d0">Fuel Cells</data>
<data key="d1">organization</data>
<data key="d2">Fuel cells utilize the reaction between hydrogen and oxygen to produce electricity, with water as a byproduct.</data>
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<data key="d2">A fundamental principle in chemistry stating that matter cannot be created or destroyed in a chemical reaction, only rearranged.</data>
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<data key="d0">Redox Reaction</data>
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<data key="d2">A type of chemical reaction involving the transfer of electrons between species, exemplified by the hydrogen-oxygen reaction.</data>
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<node id="Exothermic Reaction">
<data key="d0">Exothermic Reaction</data>
<data key="d1">category</data>
<data key="d2">A chemical reaction that releases energy in the form of heat, as seen in the hydrogen-oxygen combustion.</data>
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<node id="Thermodynamics">
<data key="d0">Thermodynamics</data>
<data key="d1">category</data>
<data key="d2">The branch of physics dealing with energy transformations, relevant to understanding the energy release in the reaction.</data>
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<node id="Rocket Propulsion">
<data key="d0">Rocket Propulsion</data>
<data key="d1">category</data>
<data key="d2">An application of the hydrogen-oxygen reaction where the released energy is used to propel rockets.</data>
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<node id="Iron Oxide">
<data key="d0">Iron Oxide</data>
<data key="d1">category</data>
<data key="d2">A compound mentioned as part of a parallel redox reaction context, though not directly in this equation.</data>
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<data key="d0">Mathematical Equation</data>
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<data key="d2">The chemical equation is formatted using LaTeX, indicating its scientific documentation.</data>
<data key="d1">UNKNOWN</data>
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</node>
<edge source="氧化铁" target="硝酸">
<data key="d6">8.0</data>
<data key="d7">氧化铁和硝酸可以发生化学反应,生成相应的产物。</data>
<data key="d8">化学反应,酸碱反应</data>
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<edge source="氧化铁" target="氧化铁和硝酸的反应方程式">
<data key="d6">7.0</data>
<data key="d7">该方程式描述了氧化铁在反应中的行为。</data>
<data key="d8">化学描述,反应过程</data>
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</edge>
<edge source="硝酸" target="氧化铁和硝酸的反应方程式">
<data key="d6">7.0</data>
<data key="d7">该方程式描述了硝酸在反应中的行为。</data>
<data key="d8">化学描述,反应过程</data>
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<data key="d6">9.0</data>
<data key="d7">氢气和氧气可以燃烧生成水。</data>
<data key="d8">化学反应,燃烧反应</data>
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<data key="d6">8.0</data>
<data key="d7">该方程式描述了氢气在燃烧反应中的行为。</data>
<data key="d8">化学描述,反应过程</data>
<data key="d9">chunk-4a0e35cee101ddc2ad73de221349ac1a</data>
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<data key="d6">8.0</data>
<data key="d7">该方程式描述了氧气在燃烧反应中的行为。</data>
<data key="d8">化学描述,反应过程</data>
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