Equation Result #1
C | + | CO2 | ↔ | 2CO | |
carbon | carbon dioxide | carbon monoxide | |||
(rắn) | (khí) | (khí) | |||
(không màu) | (không màu) | ||||
1 | 1 | 2 | Hệ số | ||
Nguyên - Phân tử khối (g/mol) | |||||
Số mol | |||||
Khối lượng (g) |
Temperature: temperature
Explanation: The ideal environmental conditions for a reaction, such as temperature, pressure, catalysts, and solvent. Catalysts are substances that speed up the pace (velocity) of a chemical reaction without being consumed or becoming part of the end product. Catalysts have no effect on equilibrium situations.
Carbon reacts with CO2
This equation does not have any specific information about phenomenon.
In this case, you just need to observe to see if product substance CO (carbon monoxide), appearing at the end of the reaction.
Or if any of the following reactant substances CO2 (carbon dioxide), disappearing
At high temperature, carbon can reduce CO2 creating CO gas. Therefore, in carbon gas in the air, there is some CO beside CO2. CO is very harmful.
Equation Result #2
CaO | + | CO2 | → | CaCO3 | |
carbon dioxide | calcium carbonate | ||||
(rắn) | (khí) | (rắn) | |||
(trắng) | (không màu) | (trắng) | |||
1 | 1 | 1 | Hệ số | ||
Nguyên - Phân tử khối (g/mol) | |||||
Số mol | |||||
Khối lượng (g) |
Temperature: room temperature
Explanation: The ideal environmental conditions for a reaction, such as temperature, pressure, catalysts, and solvent. Catalysts are substances that speed up the pace (velocity) of a chemical reaction without being consumed or becoming part of the end product. Catalysts have no effect on equilibrium situations.
Put a small piece of calcium oxide in air at ambient temperature
We no further information about this chemical reactions.
Equation Result #3
H2O | + | CO2 | ↔ | H2CO3 | |
water | carbon dioxide | carbonic acid | |||
(lỏng) | (khí) | (dd) | |||
(không màu) | (không màu) | ||||
1 | 1 | 1 | Hệ số | ||
Nguyên - Phân tử khối (g/mol) | |||||
Số mol | |||||
Khối lượng (g) |
No information found for this chemical equation
Explanation: The ideal environmental conditions for a reaction, such as temperature, pressure, catalysts, and solvent. Catalysts are substances that speed up the pace (velocity) of a chemical reaction without being consumed or becoming part of the end product. Catalysts have no effect on equilibrium situations.
Place a litmus and water into the test tube, then carry out an aeration of CO2, and heat the solution
CO2 reacts with water to create acid solution, turning litmus into red. H2CO3 is not stable, easy to be decomposed into CO2 and H2O. After heating, the solution wil turn red litmus into violet.
Equation Result #4
2NH3 | + | CO2 | → | (NH2)2CO | + | H2O | |
ammonia | carbon dioxide | water | |||||
(khí) | (khí) | (rắn) | (lỏng) | ||||
(không màu) | (không màu) | (trắng) | (không màu) | ||||
2 | 1 | 1 | 1 | Hệ số | |||
Nguyên - Phân tử khối (g/mol) | |||||||
Số mol | |||||||
Khối lượng (g) |
Temperature: 180 - 200°C Pressure: 200
Explanation: The ideal environmental conditions for a reaction, such as temperature, pressure, catalysts, and solvent. Catalysts are substances that speed up the pace (velocity) of a chemical reaction without being consumed or becoming part of the end product. Catalysts have no effect on equilibrium situations.
NH3 reacts with CO2
(NH2)2CO2 contains about 46%N. It is the best type of fertilizer produced by letting ammonia react with CO2 at 180 to 200 degrees Celsius, under the pressure of 200 atm.
Equation Result #5
BaO | + | CO2 | → | BaCO3 | |
barium oxide | carbon dioxide | barium carbonate | |||
(rắn) | (khí) | (rắn) | |||
(trắng) | (không màu) | (trắng) | |||
1 | 1 | 1 | Hệ số | ||
Nguyên - Phân tử khối (g/mol) | |||||
Số mol | |||||
Khối lượng (g) |
Temperature: room temperature
Explanation: The ideal environmental conditions for a reaction, such as temperature, pressure, catalysts, and solvent. Catalysts are substances that speed up the pace (velocity) of a chemical reaction without being consumed or becoming part of the end product. Catalysts have no effect on equilibrium situations.
Lead the CO2 stream through BaO
We no further information about this chemical reactions.
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