CH3OH is neither an acid or a base, nor is it a salt. It is an alcohol, and even though it ends in OH, it does not dissociate in water. You can tell an alcohol by the hydrocarbon group CH3, making it an organic compound.
CH3OH (methanol) is a weak acid, as it can donate a proton (H+) in a chemical reaction. Its conjugate base is CH3O- (methoxide).
CH3OH is neither a base nor an acid. It is the alcohol methanol.
CH3OH is a weak acid, known as methanol. It can donate a proton in a chemical reaction, making it an acidic compound.
CH3O- is a base, specifically a strong base. It is the conjugate base of methanol (CH3OH), which is a weak acid. CH3O- can accept a proton (H+) to become CH3OH.
No, CH3OH2 is not an acid. It is a molecule called methanol, which does not exhibit acidic properties. Acids typically donate protons in solution, while methanol does not readily do so.
The balanced equation between ethanoic acid (CH3COOH) and methanol (CH3OH) to form methyl acetate (CH3COOCH3) is: CH3COOH + CH3OH -> CH3COOCH3 + H2O.
Yes, OCH3- is a base. It belongs to the class of strong bases known as alkoxides, which are derived from alkali metals and alcohols. OCH3- can readily accept protons to form methanol (CH3OH) in a typical acid-base reaction.
CH3OH is a weak acid, known as methanol. It can donate a proton in a chemical reaction, making it an acidic compound.
CH3O- is a base, specifically a strong base. It is the conjugate base of methanol (CH3OH), which is a weak acid. CH3O- can accept a proton (H+) to become CH3OH.
No, CH3OH2 is not an acid. It is a molecule called methanol, which does not exhibit acidic properties. Acids typically donate protons in solution, while methanol does not readily do so.
No, methanol is not a Lewis base. It can act as a Lewis acid by donating a proton, but it cannot donate an electron pair to form a coordinate covalent bond.
3-Chlorobutanoic acid !! :D
When methanol (CH3OH) reacts with sulfuric acid (H2SO4), it forms dimethyl ether (CH3OCH3) and water (H2O) as products. This reaction is known as the dehydration of methanol.
The reaction between NaH and CH3OH produces sodium methoxide (NaOCH3) and hydrogen gas (H2). This reaction involves the displacement of hydrogen from methanol by the stronger base, sodium hydride. The balanced chemical equation is: 2 NaH + 2 CH3OH → 2 NaOCH3 + 2 H2.
Acid + base conjugate base + conjugate acid
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
Yes, flour can react with acid to create a chemical reaction that helps baked goods rise. When an acid like vinegar or lemon juice is combined with flour, it can activate baking soda or baking powder in the recipe, leading to the production of carbon dioxide gas which helps the baked good to expand and become light and airy.
To calculate the mass of 9.32x10^24 molecules of methanol (CH3OH), you can first find the molar mass of CH3OH, which is approximately 32 g/mol. Then, you can convert the number of molecules to moles and finally to grams. The calculation would be (9.32x10^24 molecules) / (6.022x10^23 molecules/mol) * (32 g/mol) = 497 grams.
Acetamide is a weak base. It can undergo protonation to form the conjugate acid, acetic acid, in acidic solutions.