CH4
CuO + CH3OH --> HCHO + Cu + H2O
It depends on what you added to the methanol before you put the heated copper wire into the methanol. The heated copper wire acted as a catalyst to speed up the reaction between the methanol and the other substance. Copper itself does not react with methanol.
The balanced chemical equation for a reaction tells the story of a chemical reaction by showing the reactants that are consumed and the products that are formed. It also provides information on the stoichiometry of the reaction, including the ratios of reactants and products involved.
A chemical reaction is a process that results in the transformation of chemical substances into new substances with different properties. A chemical equation represents this reaction using chemical formulas of the reactants and products, along with their respective coefficients to balance the equation.
The balanced equation for the combustion of methanol is: CH3OH (l)+ 3/2O2(g) -> CO2 (g)+ 2H2O(g) ... CH30H + 1.502 -> CO2 + 2H20
Chloroform and methanol can react to form methyl chloroformate and hydrogen chloride in the presence of a base catalyst. The reaction equation is: CHCl3 + CH3OH → CH3OCOCl + HCl
Methanol is formed from the reaction of carbon monoxide and hydrogen gas in the presence of a catalyst, such as copper or zinc. The balanced chemical equation for this reaction is: CO (g) + 2H2 (g) -> CH3OH (g).
CuO + CH3OH --> HCHO + Cu + H2O
When sodium hydroxide reacts with methanol, a neutralization reaction occurs, forming sodium methoxide and water. The balanced chemical equation for this reaction is: CH3OH + NaOH → CH3ONa + H2O
benzophenone, or diphenyl ketone, is a ketone. You might have known that when Grignard reagents react with ketones, the product is a tertiary alcohol. CH3CH2MgBr + (C6H5)2CO-----> CH3CH2(C6H5)2COH (a tertiary alcohol) The ammonium chloride solution merely dissolves this alcohol.
The reaction between 2-iodohexane and sodium methoxide will result in an SN2 substitution reaction. The equation can be represented as: 2-iodohexane + Sodium methoxide → Hexane + Sodium iodide + Methanol
H3BO3 (boric acid) + 3CH3OH (methanol) --> B(OCH3)3 (trimethyl borate) + 3H2O (water!)
The mechanism of the sodium borohydride reaction with methanol involves the transfer of a hydride ion from sodium borohydride to methanol, resulting in the formation of sodium methoxide and hydrogen gas. This reaction is a nucleophilic addition-elimination process, where the hydride ion acts as a nucleophile attacking the electrophilic carbon in methanol.
Methanol + Oxygen => Carbon Dioxide + Water CH4O + O2 => CO2 + H2O
One possible product of the reaction between chloromethane and sodium hydroxide solution is methanol and sodium chloride. Methanol is formed by the substitution of the chlorine in chloromethane with the hydroxide ion from sodium hydroxide, while sodium chloride is a byproduct of the reaction.
The balanced equation between ethanoic acid (CH3COOH) and methanol (CH3OH) to form methyl acetate (CH3COOCH3) is: CH3COOH + CH3OH -> CH3COOCH3 + H2O.
When vanillin (4-hydroxy-3-methoxybenzaldehyde) is treated with CH3CH2MgBr (methylmagnesium bromide), a product known as methyl vanillate or methyl-4-hydroxy-3-methoxybenzoate is formed. This product is an important intermediate in the production of many flavors and fragrances. Methyl vanillate is a methyl ester, a type of compound where a hydrogen in an organic molecule is replaced by a methyl group (CH3). In this case, the methyl group is attached to the oxygen atom of the carbonyl group in the vanillin molecule. The reaction between vanillin and CH3CH2MgBr can be represented as follows: Vanillin + CH3CH2MgBr → Methyl vanillate + MgBr2 The reaction is known as a Grignard reaction and is used to form carbon-carbon bonds. In this reaction, the Grignard reagent (CH3CH2MgBr) acts as a nucleophile, attacking the oxygen atom in the carbonyl group of vanillin. The resulting intermediate is then treated with water to form methyl vanillate. Methyl vanillate is an important intermediate for the production of various flavors and fragrances. For example, it is used in the production of vanillin, ethyl vanillin (used in fragrances and flavors) and menthol (used in cosmetics, medicines and food). It is also used in the production of methyl salicylate (used as a flavoring agent and a fragrance).