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C+CO = 2CO (high temperature), in which carbon acts as a reducing agent.
Reduction of carbon dioxide.
Carbon reacts with carbon dioxide at high temperatures to form carbon monoxide.
The equation is as follows:
C+CO = 2CO (high temperature).
Extended information: Carbon dioxide gas is a part of the composition of the atmosphere (about the total volume of the atmosphere, abundant in nature, and its production methods are mainly as follows:
1. Organic matter (including animals and plants) can release carbon dioxide in the process of decomposition, fermentation, decay and deterioration.
2. Carbon dioxide should also be released during the combustion of oil, paraffin, coal and natural gas.
3. Petroleum and coal will also release carbon dioxide in the process of producing chemical products.
4. All feces and humic acid.
Carbon dioxide is also released during fermentation and maturation.
5. All animals must inhale oxygen and exhale carbon dioxide during breathing.
Uses of carbon dioxide:
High-purity carbon dioxide is mainly used in the electronics industry, medical research and clinical diagnosis, and carbon dioxide lasers.
The calibration gas of the testing instrument and the preparation of other special mixed gases are used as regulators in the polymerization reaction of polyethylene.
Solid carbon dioxide is widely used in refrigerated dairy products.
Meat, frozen food and other perishable foods in transshipment are used as refrigerants in many industrial processes, such as crushing heat-sensitive materials, rubber polishing, metal cold treatment, shrink assembly of mechanical parts, vacuum cold traps, etc.
Carbon dioxide.
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c+CO2=2CO, the reaction conditions are high temperature, and carbon acts as a reducing agent to reduce carbon dioxide.
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CarbonReductivenessThe chemical equation is: C+2CuO=Cu+Co (high temperature).
Reaction brother let phenomenon: continuous red heat, producing colorless and odorless calcium hydroxide.
Solution (clarified lime water.
Turbid gas co.
Also slippery is the ability of an atom, molecule, or ion to lose electrons in a chemical reaction. The stronger the electron-losing ability of the particles contained in the substance, the stronger the reducibility of the substance itself; Conversely, the weaker it is, the weaker its reducibility will be.
The chemical properties of carbon are:
1. Combustion in oxygen.
Intense exothermy, emitting dazzling white light, producing colorless and non-letter dust jujube odor, which can make calcium hydroxide solution (clarified lime water) turbid.
2. Combustion in the air.
Exothermic, continuous red heat, produces colorless and odorless gas CO2 that can make calcium hydroxide solution (clear lime water) turbid.
3. As a reducing agent.
Carbon as a reducing agent possesses and hydrogen, carbon monoxide.
Similar chemical properties (but different products) can be derived from metal oxides.
The metal element is reduced.
The above content reference: Encyclopedia - Carbon.
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The <> method is as follows: 1. Under extreme high temperatures, carbon dioxide can be decomposed into carbon elements and oxygen.
2. Fully burn in carbon dioxide gas with magnesium strips, and the replacement reaction occurs, and the white substance generated after the reaction is magnesium oxide, and the black substance is carbon element.
3. Sodium or other highly reducing agents can be burned in carbon dioxide to replace carbon.
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Carbon dioxide. and carbon react at high temperature to form carbon monoxide, equation: CO2 + C = 2CO
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The chemical equation for the reaction of carbon dioxide with carbon is given below
CO2 + C = 2CO (Condition: High Temperature).
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Carbon dioxide reacts with carbon at high temperature to form carbon monoxide, CO + C = high temperature = 2CO
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Carbon reduces carbon dioxide.
The chemical equation is the redox reaction.
In the reaction, carbon acts as a reducing agent, reducing carbon dioxide. Carbon and carbon dioxide react at high temperatures to form carbon monoxide, and the equation is: C+CO = 2CO (high temperature).
Carbon is a non-metallic element, with the chemical symbol C, which has stability at room temperature, is not reactive, has very low toxicity to the human body, and can even be safely ingested in the form of graphite or activated carbon, located on the periodic table.
The second cycle of the IVA group.
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carbon and carbon dioxide.
The chemical equation of the reaction.
is C+CO=2CO and carbon acts as a reducing agent in the reaction.
Reduction of carbon dioxide, carbon dioxide gas is part of the composition of the atmosphere and accounts for about the total volume of the atmosphere.
The reaction of carbon and carbon dioxide is endothermic and the reversible reaction is still carried out after the chemical equilibrium is established. Carbon dioxide can generally be prepared by calcining limestone at high temperature or by the reaction of limestone and dilute hydrochloric acid, and is mainly used in refrigerating perishable food (solid), as a refrigerant (liquid) and so on.
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Carbon monoxide is flammable, carbon monoxide is burned to produce carbon dioxide, and the chemical equation of the reaction is: 2CO+O2 ignition2CO2 carbon monoxide is also reducible, carbon monoxide reduces copper oxide to produce copper and carbon dioxide, and the chemical equation of the reaction is:
cuo+co cu+co 2 so the answer is: 2co+o 2 ignite
2co 2 ;cuo+co △ cu+co 2 .
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The chemical equation for the reaction of carbon and carbon dioxide is: C + CO2 = high temperature = 2Co, and the reaction is a disproportionation reaction.
Carbon dioxide is used as an oxidant to oxidize carbon element, CO is both an oxidation product and a reduction product, note that the reaction must be carried out under high temperature conditions.
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Carbon and carbon dioxide react to form carbon monoxide.
The reaction equation is as follows:
c+co2===2co
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This is the anti-disproportionation reaction, also known as the centering reaction.
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The chemical equation of carbon dioxide and carbon reaction is: C ten CO2 = high temperature = 2CO, the reaction type of the reaction is disproportionation reaction, carbon dioxide is the oxidant, and CO is both an oxidation product and a reduction product.
Carbon dioxide is a colorless and odorless gas at room temperature and pressure, and is also a common greenhouse gas, which is one of the components of air, its melting point is, the boiling point is, under standard conditions, the density is denser than air, and it is soluble in water. Carbon monoxide is a colorless and odorless gas at room temperature and pressure, with a melting point of -205 and a boiling point, which is insoluble in water and not easy to liquefy and solidify.
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Literal expressions:
carbon and carbon dioxide.
Carbon monoxide is formed by the reaction at high temperatures.
Chemical Equation:
C+CO2 = (reaction condition is high temperature) 2Co
The chemical formula of carbon dioxide is: CO2. A carbon dioxide molecule is composed of two oxygen atoms and one carbon atom through covalent bonds, and is a colorless and odorless gas at room temperature, with a greater density than air, soluble in water, does not support combustion, and reacts with water to form carbonic acid. >>>More
1) CO2+CO32-+H2O=2HCO3-(2)K2CO3(3)CD(4)CL-(5)2mNO2+2E-+H2O=2OH-+Mn2O3 Colorless gas and white precipitation produce test question analysis: (1) The absorption of CO2 in K2CO3 solution generates KhCO3, and the K+ deletion is written as an ion equation. (2) K2CO3 is obtained by thermal decomposition of K2CO3, which is a circular substance; (3) The reaction reaches an equilibrium state and two more characteristics: >>>More
Two gases are passed into lime water, the turbid one is carbon dioxide, and the unchanged one is oxygen.
It's all gas. Both have 2 oxygen molecules.
Bubbles are formed on the outside of the eggshell, and at the same time, the eggshell floats up (the volume of gas is on the surface, creating buoyancy), and over time, the eggshell gradually becomes smaller and disappears (calcium acetate, calcium carbonate, water, calcium acetate, carbon dioxide). >>>More