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What can be formed by the reaction of basic oxygen and water?

What can be formed by the reaction of basic oxygen and water?

2026-07-05 09:53
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Alkaline oxides react with water to form bases. For example, the reaction of calcium dioxide (CaOx) with water to form calcium hydrogen dioxide (CaOx)<2>, the chemical equation is CaOx + HOx <2> O = CaOx <2>; the reaction of NaOx <2> O with water to form NaOx <2> O, the reaction equation is NaOx <2> O + HOx <2> O = 2NaOx <2>; the reaction of KOx <2> O with water to form KOx <2> O, the reaction equation is KOx <2> O + HOx <2> O = 2KOx; the reaction of BaOx <2> with water to form BaOx <2> O <2>, the reaction equation is BaOx + HOx <2> O = BaOx <2> O. However, the corresponding hydrating compound is the basic oxide-type of an undissolved base (such as copper), which does not react with water. Read more exciting novels for free

The reaction of oxygen with sulfur

When oxygen meets sulfur, it will react and release a lot of heat. For example, when the reaction between hydrogen sulfureted and oxygen was small, it would produce sulfur and water. The chemical equation was [O2 + 2H2S = 2S +2H2O]. When the oxygen was excessive, it would produce sulfur dioxide and water. The chemical equation was [3O2 + 2H2S = 2SO2 + 2H2O]. Sulfides in the sulfurous waste water of oil refineries (usually in the form of Na salt or NH4) react with oxygen in the air as follows: <2HS^-+ O2 → SO4 ^{2 -}+ H2O>,<2S +2O2 + H2O → SO4 ^{2 -}+2Ox ^->,<SO3 ^{2 -}+ O2 + Ox ^-→ 2SO4 ^{2 -}+ H2O>. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>

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2026-07-03 10:52

The equation of carbon dioxide formed by the reaction of carbon dioxide and water

The reaction between the soda ash and water would not directly produce carbon dioxide. The reaction between the water and the carbon dioxide was a reaction of water and carbon dioxide. The first stage of the reaction was: Na2CO3 (carbon dioxide)+H2O (water)= NaHCO3 (carbon dioxide)+ NaOx; the second stage of the reaction was: NaHCO3 (carbon dioxide)+H2O (water)= H2CO3 (carbon dioxide)+ NaOx. The reaction was irreversible. The reaction between the two would produce carbon dioxide, and the chemical equation was: Na2CO3 + 2HQ == 2NaCl2 + H2O + CO2. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>

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2026-07-06 02:57

Reaction Formula of Sulfur Dioxide-oxygen

2SO2 + O2 $\stack rel {dust}{=\!=\!=}$ 2SO₃。 <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>

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2026-07-02 16:48

Reaction equation of aluminum and hydrogen and oxygen

When there was a small amount of oh-ions, the chemical equation of the reaction between aluminum ions and oh ions was: Al3 ++3OH - =Al(OH)3; when there was an excess of oh-ions, the chemical equation of the reaction between aluminum ions and oh ions was: Al3 ++4OH - = AlO2-+2H2O. When a small amount of oh-ions gradually becomes excessive, the chemical equation of the reaction between aluminum ions and oh ions is: AI (OH)3+OH - = AlO2-+2H2O. The ion equation for the reaction of aluminum with water is: 20H- +2Al+2H2O→ 2AlO2-+3H2. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>

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2026-07-02 14:29

Soda and water react with oxygen

Great soda (sodic thionate) could react with carbon dioxide and oxygen in the air. It had to be prepared and used immediately. However, the exact chemical equation of its reaction with water and oxygen was not found. However, it was known that great soda had a reducing property. During use, it would be oxided by the air because of this reducing property. It should be avoided in humid environments to prevent deterioration because it was easy to delixidize in humid air and it might be more likely to react with oxygen and deteriorate in such an environment. At the same time, attention should also be paid to the reduction of nitrogen in aquatic cultivation, which may lead to oxygen consumption and other problems. For example, if soda is used to degrade nitrogen and nitrogen in the middle and late stages of cultivation, it may consume a large amount of dissolved oxygen in the water body due to its strong reduction, causing serious oxygen deficiency in the water body. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>

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2026-07-04 15:11

How to write the reaction equation of propyi-oxygen

The reaction equation for the synthesis of epoxidide from the oxygen of propyne is: CH ^=CHCH + O ^= O(CH ^- C(CH)). <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>

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2026-06-30 11:05

The chemical reaction between sulfur dioxide and oxygen

The chemical equation for the reaction between sulfur dioxide and oxygen is: 2SO2 + O2 2SO2. The reaction uses vanadium-dioxide (V2O2) as a catalyst and requires heating conditions. In addition, there was a reaction in the gas phase: 2SO2 (gas)+ O2 (gas)+2H2O (liquid) → 2HSO2 (liquid). <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>

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2026-07-04 09:13

Reaction equation for the mutual transformation of the oxygen state

以下是一些涉及氧化态相互转化的反应方程式: 1. **铁与硫酸铜的置换反应(铁的氧化态从0升高到 +2,铜的氧化态从 +2降低到0)** - 反应方程式:\(Fe + CuSO_{4}=FeSO_{4}+Cu\)。 - 在这个反应中,铁单质(\(Fe\),氧化态为0)失去2个电子变成亚铁离子(\(Fe^{2 + }\),氧化态为+2),是还原剂;硫酸铜中的铜离子(\(Cu^{2+}\),氧化态为+2)得到2个电子变成铜单质(\(Cu\),氧化态为0),硫酸铜是氧化剂。 2. **氯气与氢氧化钠的歧化反应(氯的氧化态部分从0升高到+1,部分从0降低到 - 1)** - 反应方程式:\(Cl_{2}+2NaOH = NaCl + NaClO + H_{2}O\)。 - 氯气(\(Cl_{2}\),氧化态为0)中一部分氯原子失去电子,氧化态升高到 +1形成\(NaClO\);另一部分氯原子得到电子,氧化态降低到 - 1形成\(NaCl\)。 3. **铁与氯化铁的归中反应(铁的氧化态从0升高到+2,部分铁的氧化态从+3降低到+2)** - 反应方程式:\(Fe + 2FeCl_{3}=3FeCl_{2}\)。 - 铁单质(\(Fe\),氧化态为0)失去电子,氧化态升高到+2;氯化铁中的铁离子(\(Fe^{3+}\),氧化态为+3)得到电子,氧化态降低到+2。 4. **铜与浓硝酸反应(铜的氧化态从0升高到 +2,氮的氧化态从+5降低到+4)** - 反应方程式:\(Cu + 4HNO_{3}(浓)=Cu(NO_{3})_{2}+2NO_{2}\uparrow+2H_{2}O\)。 - 铜(\(Cu\),氧化态为0)失去2个电子,氧化态升高到+2;浓硝酸中的氮原子(\(N\),氧化态为+5)得到1个电子,氧化态降低到+4。 5. **铜与稀硝酸反应(铜的氧化态从0升高到+2,氮的氧化态从+5降低到+2)** - 反应方程式:\(3Cu + 8HNO_{3}(稀)=3Cu(NO_{3})_{2}+2NO\uparrow+4H_{2}O\)。 - 铜(\(Cu\),氧化态为0)失去2个电子,氧化态升高到+2;稀硝酸中的氮原子(\(N\),氧化态为+5)得到3个电子,氧化态降低到+2。 6. **过氧化氢在酸性条件下被高锰酸钾氧化(氧的氧化态从 - 1升高到0,锰的氧化态从+7降低到+2)** - 反应方程式:\(2KMnO_{4}+5H_{2}O_{2}+2H_{2}SO_{4}=K_{2}SO_{4}+MnSO_{4}+5O_{2}\uparrow+2H_{2}O\)。 - 过氧化氢中的氧原子(\(O\),氧化态为 - 1)失去电子,氧化态升高到0;高锰酸钾中的锰原子(\(Mn\),氧化态为+7)得到5个电子,氧化态降低到+2。 7. **硫化氢与硫酸的反应(硫的氧化态从 - 2升高到0,部分硫的氧化态从+6降低到+4)** - 反应方程式:\(H_{2}S + H_{2}SO_{4}=S\downarrow+SO_{2}+2H_{2}O\)。 - 硫化氢中的硫原子(\(S\),氧化态为 - 2)失去电子,氧化态升高到0;硫酸中的硫原子(\(S\),氧化态为+6)得到2个电子,氧化态降低到+4。 8. **碳与氧气的化合反应(碳的氧化态从0升高到+4,氧的氧化态从0降低到 - 2)** - 反应方程式:\(C + O_{2}\stackrel{点燃}{=}CO_{2}\)。 - 碳(\(C\),氧化态为0)失去4个电子,氧化态升高到+4;氧气中的氧原子(\(O\),氧化态为0)得到2个电子,氧化态降低到 - 2。 <a href="/?from=ask_words" style="color:red" target="_blank">点击前往免费阅读更多精彩小说</a>

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2026-07-02 10:19

How to know the reaction between an object and oxygen

There were several ways to determine whether an object reacted with oxygen: 1. ** Observe the reaction phenomenon ** - ** Gas-related phenomenon **: If the reaction produces a colorless and odorless gas that can reignite the wood with sparks, it may produce oxygen; if it produces a gas that makes the clear lime water turbid (usually carbon dioxide), it may be a reaction between the carbon-containing material and oxygen. For example, the complete combustion of carbon would produce carbon dioxide gas. - ** Solid-related phenomenon **: - The color of the solid would change, just like iron burning in oxygen. It would burn violently and spark in all directions, forming a black solid iron oxide-iron, while copper would turn from red to black copper oxide-iron when heated in air. - The mass of the solid would change. For example, the burning of the magnetite in the air would emit a dazzling white light, forming white solid magnetite, and the mass of the solid would increase. - ** Fire-related phenomena **: Some substances will produce a special flame color when burned in oxygen. For example, hydrogen will produce a light blue flame when burned in oxygen; carbon dioxide will produce a blue flame when burned in oxygen. 2. ** Detected the composition of the product after the reaction ** - ** Ion test (for reaction products in the solution)**: - If it was suspected that the reaction had produced Cl-ions, it could be tested with silver nitrates and diluted sulfuric acid. If a white deposit was produced, then there were Cl-ions. - If it is suspected that the formation of sulfuric acid ions is formed, it can be tested by using a solution of bis (potassium) nitrates and diluted sulfuric acid or by dripping diluted sulfuric acid first and then dripping bis (potassium) chloride-based solution. - For the ion of the nitrogen radical, the solution of the nitrogen radical could be heated with a solution of the nitrogen radical. The wet red litmus test paper could be placed at the mouth of the test tube for testing. If the test paper turned blue, there would be the nitrogen radical ion. - ** Special substance inspection (for solid or gaseous products)**: - To test whether water was formed, one could use copper sulphuric acid. If the white solid turned blue, water would be formed. - For carbon dioxide gas, clear lime water was added. If it became turbid, carbon dioxide would be produced. 3. ** Judging from the reaction conditions **: If the reaction occurs in an oxygen environment (such as air or pure oxygen), heating or ignition, and it conforms to the law of the reaction between a certain substance and oxygen, it can also be judged as a reaction with oxygen. For example, red phosphorus would react with oxygen under ignition conditions to form diphosphorous Pentoxy. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>

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2026-07-05 22:31
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