2Cu+H2O+CO2+O2=Cu(OH)2.CuCo3
2Cu (s) + O2 (g) -----------------> 2CuO (s)
2Cu + O2 ==> 2CuO product is copper(II) oxide4Cu + O2 ==> 2Cu2O product is copper(I) oxide
Cu + MgCl2 --> no reaction In order for a single replacement/displacement reaction to take place, the free metal must replace the bonded metal in the compound. However, according to the reactivity series of metals, copper does not replace magnesium, however magnesium would replace copper in a compound. Mg + CuCl2 --> Cu + MgCl2. Refer to the related link for a reactivity series of metals.
When Copper(I) oxide (Cu2O) reacts with carbon monoxide (CO), it undergoes a reduction reaction where the copper(I) oxide is reduced to elemental copper, and carbon monoxide is oxidized to carbon dioxide (CO2). The balanced chemical equation for this reaction is: ( Cu_2O + CO \rightarrow 2Cu + CO_2 ). This reaction is often utilized in metallurgical processes to extract copper from its ores.
Cl2 + 2Cu --> 2CuCl Oxidation reaction is Cu --> Cu+ + 1e Reduction reaction is Cl + 1e --> Cl- Redox reaction is Cu + Cl --> Cu+ + Cl-
The word equation for the reaction 2Cu + O2 -> 2CuO is: Copper + Oxygen -> Copper(II) oxide.
When copper is heated in air, it reacts with oxygen to form copper oxide. The equation for this reaction is: 2Cu(s) + O2(g) -> 2CuO(s)
2Cu(s) + O2(g) --> 2CuO(s)
what is 2CU
2Cu+H2O+CO2+O2=Cu(OH)2.CuCo3
The reaction between copper, water, and oxygen to form copper hydroxide is a chemical reaction that involves oxidation. Copper reacts with oxygen in the air to form copper oxide, which then reacts with water to give copper hydroxide. This reaction can be classified as both oxidation and hydrolysis.
It is the direct combination of two elements or oxidation of copper. 2Cu + O2 = 2CuO its a synthesis reaction!
2Cu (s) + O2 (g) -----------------> 2CuO (s)
2Cu + O2 ==> 2CuO product is copper(II) oxide4Cu + O2 ==> 2Cu2O product is copper(I) oxide
no reaction take place between copper and water. so there is no blance equation.
Cu + MgCl2 --> no reaction In order for a single replacement/displacement reaction to take place, the free metal must replace the bonded metal in the compound. However, according to the reactivity series of metals, copper does not replace magnesium, however magnesium would replace copper in a compound. Mg + CuCl2 --> Cu + MgCl2. Refer to the related link for a reactivity series of metals.