Phenol does not react with carbonates because it is a weak acid and does not produce sufficient H⁺ ions to react with the carbonate ions (CO₃²⁻). In contrast, stronger acids like hydrochloric acid readily react with carbonates to produce carbon dioxide, water, and a salt. The equilibrium between phenol and its conjugate base (phenoxide ion) does not favor the release of H⁺ needed for the carbonate reaction. Thus, phenol remains unreactive towards carbonates under normal conditions.
Yes, at room temperature bromine reacts with phenol and forms 2,4,6-tribromo phenol.
Yes, bases can react with carbonates to form water, carbon dioxide, and a salt. The reaction typically involves the base accepting a proton from the carbonate ion, leading to the formation of carbon dioxide gas.
Phenol is not dissolved in a sodium hydroxide solution; having the characteristics of a weak acid phenol react with NaOH.
The carbonates of the metals in group I reacts easily.
Phenol does not react with carbonates because it is a weak acid and does not produce sufficient H⁺ ions to react with the carbonate ions (CO₃²⁻). In contrast, stronger acids like hydrochloric acid readily react with carbonates to produce carbon dioxide, water, and a salt. The equilibrium between phenol and its conjugate base (phenoxide ion) does not favor the release of H⁺ needed for the carbonate reaction. Thus, phenol remains unreactive towards carbonates under normal conditions.
Carbonates react with hydrochloric acid.
As carbonates are mildly basic, anything acid will react with them (releasing carbon dioxide gas).
No, any strong acid will react with carbonates.
alkali
Yes, at room temperature bromine reacts with phenol and forms 2,4,6-tribromo phenol.
Yes
it Doesn't! react:))
Silicates generally do not react with acids like carbonates do. Silicates are generally insoluble in common acids due to their strong chemical bonds, whereas carbonates typically react with acids to form carbon dioxide gas, water, and a salt.
Yes, bases can react with carbonates to form water, carbon dioxide, and a salt. The reaction typically involves the base accepting a proton from the carbonate ion, leading to the formation of carbon dioxide gas.
what is the chemical equation when phenol react with hydrochloric acid
Limestones and carbonates.