氧化铁
category
氧化铁是一种化学物质,参与与硝酸的化学反应。
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
硝酸
category
硝酸是一种强酸,参与与氧化铁的化学反应。
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
氢气
category
氢气是一种可燃气体,参与与氧气的燃烧反应。
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
氧气
category
氧气是一种助燃气体,参与与氢气的燃烧反应。
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
反应方程式1
event
氧化铁与硝酸的化学反应方程式1,描述两者之间的化学反应过程。
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
反应方程式2
event
氧化铁与硝酸的化学反应方程式2,可能表示另一种反应条件或产物。
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
燃烧的方程式
event
氢气与氧气的燃烧反应方程式,描述两者反应生成水的过程。
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
equation
A balanced redox reaction where iron(II) oxide reacts with nitric acid under heat to produce iron(III) nitrate, hydrogen gas, and nitrogen dioxide. It exemplifies acid-base and electron-transfer chemistry, with industrial and environmental relevance.
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960408
FeO
category
Iron(II) oxide, a reactant in the chemical reaction, involved in redox processes.
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
HNO₃
category
Nitric acid, a reactant in the chemical reaction, acts as an oxidizing agent.<SEP>Nitric acid, a strong acid reactant that participates in the redox reaction, reducing to nitrogen dioxide.
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Fe(NO₃)₃
category
Iron(III) nitrate, a product of the reaction formed by the oxidation of iron(II) oxide.<SEP>Iron(III) nitrate, a product of the reaction, formed through oxidation of iron.
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
H₂
category
Hydrogen gas, a gaseous product evolved during the reaction.
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
NO₂
category
Nitrogen dioxide gas, a gaseous product and a pollutant, formed through reduction of nitric acid.<SEP>Nitrogen dioxide, a gaseous product and pollutant resulting from the reduction of nitric acid.
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Redox Reaction
category
A chemical reaction involving the transfer of electrons between species, exemplified by the oxidation of Fe²⁺ to Fe³⁺ and reduction of HNO₃ to NO₂.<SEP>A type of chemical reaction involving oxidation and reduction processes.
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Stoichiometry
category
Stoichiometry refers to the quantitative relationship between reactants and products in a chemical reaction, as demonstrated in the balanced equation.<SEP>The quantitative relationship between reactants and products in a balanced chemical equation.<SEP>The quantitative relationship between reactants and products in a chemical reaction.
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-160631ff58dfd24b89716cc26d0a4b6e<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Δ (Heat)
category
Heat applied to drive the chemical reaction, denoted by the delta symbol.<SEP>Thermal energy applied to drive the chemical reaction forward.
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Oxidation
category
The process where Fe²⁺ is oxidized to Fe³⁺ in the reaction.
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Reduction
category
The process where HNO₃ is reduced to NO₂ in the reaction.
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Gas Evolution
category
The production of gaseous products (H₂ and NO₂) during the reaction.
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Acid-Metal Oxide Reaction
category
A type of reaction where an acid reacts with a metal oxide.
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Combustion Reaction
category
A contrasting reaction type mentioned in the context (H₂ + O₂).<SEP>The combustion reaction is a chemical process where hydrogen and oxygen react to form water, releasing energy.
chunk-160631ff58dfd24b89716cc26d0a4b6e<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Laboratory Synthesis
category
Practical application of the reaction in synthesizing iron(III) compounds.
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Industrial Processes
category
Use of the reaction in industrial settings involving nitric acid and metal oxides.
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Environmental Chemistry
category
Relevance of NO₂ as a pollutant in environmental studies.
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
Inorganic Chemistry
category
The branch of chemistry dealing with inorganic compounds, including reactions like the one described.
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
Iron(II) Oxide (FeO)
category
A reactant in the chemical reaction, composed of iron and oxygen in a +2 oxidation state.
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
Nitric Acid (HNO₃)
category
A strong oxidizing acid that reacts with FeO, producing nitrogen dioxide and iron(III) nitrate.
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
Iron(III) Nitrate (Fe(NO₃)₃)
category
A product formed by the oxidation of iron(II) oxide in the presence of nitric acid.
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
Hydrogen Gas (H₂)
category
A gaseous byproduct released during the reaction, indicated by the upward arrow (↑).<SEP>Hydrogen gas (H₂) is a diatomic molecule and a reactant in the combustion reaction, forming water when combined with oxygen.
chunk-160631ff58dfd24b89716cc26d0a4b6e<SEP>chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
Nitrogen Dioxide (NO₂)
category
A toxic gas produced from the reduction of nitric acid, contributing to environmental pollution.
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
Environmental Pollution
category
A broader implication of NO₂ emissions from chemical reactions like this one.
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
Industrial Synthesis
event
Practical applications of this reaction in producing iron(III) nitrate for industrial use.
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
Laboratory Demonstration
event
Educational use of this reaction to illustrate redox principles in chemistry labs.
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
Hydrogen Combustion Equation (equation)
equation
The equation represents the combustion of hydrogen and oxygen to form water, illustrating stoichiometric balance and energy release. It is foundational in chemistry and energy applications.
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960537
Oxygen Gas (O₂)
category
Oxygen gas (O₂) is a diatomic molecule and a reactant in the combustion reaction, combining with hydrogen to form water.
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
Water (H₂O)
category
Water (H₂O) is the product of the combustion reaction between hydrogen and oxygen, representing a clean energy output.
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
Redox Chemistry
category
Redox chemistry involves oxidation and reduction reactions, exemplified by the combustion of hydrogen and oxygen.
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
Hydrogen Fuel Cells
organization
Hydrogen fuel cells utilize the combustion reaction of hydrogen and oxygen to produce clean energy, with water as the only byproduct.
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
Law of Conservation of Mass
category
A fundamental principle in chemistry stating that matter cannot be created or destroyed in a chemical reaction, only rearranged.
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
Thermodynamics
category
The branch of physics dealing with heat and energy transfer, particularly relevant in exothermic reactions like hydrogen combustion.
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
Exothermic Reaction
event
A chemical reaction that releases energy, exemplified by the combustion of hydrogen and oxygen.
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
Rocket Propulsion
category
An application of the hydrogen-oxygen combustion reaction, used to generate thrust in spacecraft.
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
Clean Energy Systems
category
Technologies utilizing chemical reactions like hydrogen combustion to produce energy with minimal environmental impact.
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
Iron Oxide
category
A compound mentioned as part of other chemical reactions in the broader context of the discussion.
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
Nitric Acid
category
A chemical mentioned as part of other reactions (acid-base) in the broader context of the discussion.
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
8.0
氧化铁与硝酸发生化学反应,生成新的化合物。
化学反应,酸碱反应
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
8.0
反应方程式1描述了氧化铁与硝酸的具体化学反应。
化学描述,反应过程
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
7.0
反应方程式2可能描述了氧化铁与硝酸的另一种反应条件或产物。
化学描述,反应变体
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
8.0
反应方程式1描述了硝酸与氧化铁的具体化学反应。
化学描述,反应过程
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
7.0
反应方程式2可能描述了硝酸与氧化铁的另一种反应条件或产物。
化学描述,反应变体
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
9.0
氢气与氧气发生燃烧反应,生成水。
氧化还原,燃烧反应
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
9.0
燃烧的方程式描述了氢气与氧气的反应过程。
化学描述,燃烧过程
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
9.0
燃烧的方程式描述了氧气与氢气的反应过程。
化学描述,燃烧过程
chunk-f77d33d8abf6748445c076e3e4c9b1e8
化学方程式_CHEMISTRY_1.docx
1751960218
Entity FeO belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
30.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity HNO₃ belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
30.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Fe(NO₃)₃ belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
30.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity H₂ belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
30.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity NO₂ belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
30.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Redox Reaction belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
30.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Stoichiometry belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
30.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Δ (Heat) belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
30.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Oxidation belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Reduction belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Gas Evolution belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Acid-Metal Oxide Reaction belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Combustion Reaction belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Laboratory Synthesis belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Industrial Processes belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Environmental Chemistry belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Inorganic Chemistry belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Iron(II) Oxide (FeO) belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Nitric Acid (HNO₃) belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Iron(III) Nitrate (Fe(NO₃)₃) belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Hydrogen Gas (H₂) belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Nitrogen Dioxide (NO₂) belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Environmental Pollution belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Industrial Synthesis belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Laboratory Demonstration belongs to Iron(II) Oxide and Nitric Acid Redox Reaction (equation)
belongs_to,contained_in,part_of
chunk-1b444c5f7dfe95b7dde27447f21214b5
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
18.0
FeO reacts with HNO₃ in a redox process to produce Fe(NO₃)₃, H₂, and NO₂.<SEP>FeO reacts with HNO₃ in a redox reaction to produce Fe(NO₃)₃, H₂, and NO₂.
chemical reaction,redox,redox process
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
16.0
FeO is oxidized to form Fe(NO₃)₃ in the reaction.
oxidation,product formation
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
7.0
Heat (Δ) is required to drive the reaction involving FeO.
energy input,reaction condition
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
8.0
FeO undergoes oxidation to form Fe(NO₃)₃.
chemical process,electron loss
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
16.0
HNO₃ is reduced to form NO₂ gas in the reaction.<SEP>HNO₃ is reduced to form NO₂ in the reaction.
gas evolution,pollutant formation,reduction
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
7.0
Heat (Δ) is required to drive the reaction involving HNO₃.
energy input,reaction condition
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
8.0
HNO₃ undergoes reduction to form NO₂.
chemical process,electron gain
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
7.0
Nitric acid is used in industrial processes involving metal oxides.
chemical usage,industrial application
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
7.0
The reaction is used in laboratories to synthesize iron(III) nitrate.
chemical synthesis,practical application
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
7.0
H₂ is one of the gaseous products evolved in the reaction.
gas release,product formation
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
7.0
NO₂ is one of the gaseous products evolved in the reaction.
gas release,product formation
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
8.0
NO₂ is a pollutant studied in environmental chemistry.
environmental impact,pollution
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
14.0
Stoichiometry ensures mass and charge balance in the redox equation.<SEP>Stoichiometry is used to balance the redox reaction and understand the molar ratios.
balancing,conservation laws,quantitative analysis
chunk-1b444c5f7dfe95b7dde27447f21214b5<SEP>chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
8.0
The reaction between FeO and HNO₃ is an example of an acid-metal oxide reaction, a subset of redox reactions.
chemical types,reaction classification
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
7.0
Combustion reactions are another type of redox reaction, contrasting with the acid-metal oxide reaction.
chemical types,reaction comparison
chunk-d50f1a8dad9b33fc2a6c7c3359220e5a
化学方程式_CHEMISTRY_1.docx
1751960616
16.0
Redox reactions are a fundamental concept in inorganic chemistry.<SEP>The redox reaction is a fundamental process studied within inorganic chemistry.
academic discipline,academic study,chemical principles,chemical process
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
8.0
Heat is required to drive the redox reaction forward.
energy input,reaction kinetics
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
7.0
This reaction is commonly used in labs to teach redox principles.
education,experimental learning
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Stoichiometry belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
8.0
Stoichiometry governs the balanced molar ratios of reactants and products in the combustion reaction.
chemical balance,quantitative analysis
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Combustion Reaction belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
10.0
The combustion reaction produces water as the sole product, highlighting its clean energy potential.
energy production,zero-emission
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
18.0
The combustion reaction is a classic example of redox chemistry, involving the oxidation of hydrogen and reduction of oxygen.<SEP>The combustion reaction is a redox process where hydrogen is oxidized and oxygen is reduced.
chemical transformation,electron transfer,oxidation-reduction
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
10.0
Hydrogen fuel cells leverage the combustion reaction to generate clean energy, with water as the only output.
clean technology,sustainable energy
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
9.0
The combustion reaction adheres to the law of conservation of mass, with atoms being rearranged but not created or destroyed.
atomic balance,chemical principle
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
10.0
The combustion of hydrogen and oxygen is an exothermic reaction, releasing significant energy.
chemical process,energy release
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
9.0
Rocket propulsion systems utilize the hydrogen-oxygen combustion reaction for thrust generation.
energy application,space technology
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
9.0
FeO reacts with HNO₃ under heat to form Fe(NO₃)₃, H₂, and NO₂.
chemical reaction,redox process
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
8.0
FeO is oxidized to Fe(NO₃)₃ in the reaction.
oxidation,product formation
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
8.0
HNO₃ is reduced to NO₂, releasing toxic gas.
pollutant formation,reduction
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
7.0
HNO₃ contributes to the release of H₂ gas during the reaction.
acid reaction,gas evolution
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
7.0
Fe(NO₃)₃ is industrially synthesized using this reaction.
chemical manufacturing,practical application
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Hydrogen Gas (H₂) belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
9.0
Hydrogen and oxygen gases react in a 2:1 molar ratio to form water in a combustion reaction.
chemical reaction,stoichiometry
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
8.0
NO₂ is a harmful pollutant contributing to air quality degradation.
environmental impact,toxicity
chunk-1b444c5f7dfe95b7dde27447f21214b5
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Oxygen Gas (O₂) belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Water (H₂O) belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Redox Chemistry belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Hydrogen Fuel Cells belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Law of Conservation of Mass belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Thermodynamics belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Exothermic Reaction belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Rocket Propulsion belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Clean Energy Systems belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Iron Oxide belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
Entity Nitric Acid belongs to Hydrogen Combustion Equation (equation)
belongs_to,contained_in,part_of
chunk-160631ff58dfd24b89716cc26d0a4b6e
20.0
化学方程式_CHEMISTRY_1.docx
1751960616
10.0
Hydrogen fuel cells are a type of clean energy system that uses the hydrogen combustion reaction.
sustainability,zero-emission technology
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
8.0
The hydrogen combustion reaction is a classic example of thermodynamics in action, releasing heat energy.
energy transfer,heat release
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616
6.0
Mentioned as part of other chemical reactions (acid-base) in contrast to the combustion reaction.
chemical contrast,reaction types
chunk-160631ff58dfd24b89716cc26d0a4b6e
化学方程式_CHEMISTRY_1.docx
1751960616