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It's all correct, depending on the amount of toner you use, if there is more carbon, then it is carbon monoxide and copper, and if there is less toner, it is carbon dioxide and copper. Generally write carbon dioxide and copper.
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If we use toner and copper oxide to experiment, then carbon monoxide is inevitably generated, but it is clearly pointed out in the question that it is just the reaction, then this should be aimed at the ideal conditions, all carbon dioxide and copper are generated.
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carbon dioxide and copper.
If it is carbon monoxide, it will continue to react with copper oxide.
Eventually carbon dioxide is produced...
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It should be written both: Mr. carbon dioxide, which continues to react with carbon powder to form carbon monoxide.
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If C is excessive, CO and Cu will be generated, and if Cuo is excessive, CO2 and Cu will be generated.
Note that in a general sense, CO is not very stable, so generally if the seal is not very good, write CO2, hehe.
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I look at what the situation is.
If there is too much toner, it is carbon monoxide.
But generally write carbon dioxide.
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In the air is the generation of carbon monoxide and copper....If a mixture of carbon monoxide, carbon dioxide and copper is formed in pure oxygen!
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carbon dioxide and copper.
You're wrong, move your head more.
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Carbon dioxide and copper: This is the exact word in chemistry textbooks.
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2CuO+C=2Cu+CO2 conditions generate CO2 gas at high temperatures.
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6 grams of toner and 80 grams of copper oxide.
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The equation for the reduction of copper oxide by carbon monoxide is:
co+cuo==heating==cu+co
The equation for carbon reduction of carbon monoxide is closed shout:
C+2CuO===2Cu+Co (displacement reaction).
Carbon monoxide reduction copper oxide may also produce an intermediate product, cuprous oxide Cu2O
Note: This type of reaction belongs to redox reactions.
Carbon monoxide is used as a reducing agent to reduce many metal oxides to metal elements at high temperatures, so it is often used in metal smelting.
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As a reducing agent, carbon has similar chemical and analytical properties as hydrogen and carbon monoxide, and can reduce metal elements from metal oxides. The chemical equation for the reaction of carbon and copper oxide is: c+2cuo==high temperature==2cu+CO2.
Carbon is a non-metal with reducing properties. Under certain conditions, copper oxide can be reduced with carbon to produce copper element. Equation of carbon reduction copper oxide:
Main reaction: C+2CuO==High temperature==2Cu+CO2 (displacement reaction). Side reactions:
C+Cuo=High Temperature=Cu+Co (Excess Carbon); C+4CuO=High temperature=2Cu2O+CO2 (excess copper oxide).
Chemistry: Chemistry is a kind of natural science, mainly at the molecular and atomic levels, studying the composition, properties, structure and change laws of matter, and creating new substances (the essence is molecules that do not exist in nature). The world is made up of matter, and there are two main forms of change: chemical and physical changes (and nuclear reactions).
Unlike particle physics and nuclear physics, which study smaller scales, chemistry studies the molecules of the original Jean group molecules and the material structure and chemical bonds of ions (clusters).
What is Carbon Monoxide? Parse.
1. See if it can be burned; 2. When combusting, the flame is covered with a dry beaker 1 to prove that it is generated without water. (excluding the interference of other gaseous organic compounds) 3. The gas generated by combustion passes into the clear lime aqueous solution, and white precipitates are generated, then the combustion product is carbon dioxide, and the original gas is carbon monoxide. >>>More
No. Carbon monoxide molecules are small and not easily adsorbed; Carbon monoxide is insoluble in water and is not a salt (does not react with acids or alkalis), making it difficult to absorb.
Oxygen can be used to distinguish between carbon monoxide and carbon dioxide. >>>More
It can't under normal conditions, but it doesn't necessarily fail to respond under extraordinary conditions. >>>More