The only one that is an Arrhenius Acid is H2SO4
NH2CH3, known as methylamine, is a weak base. It can accept a proton (H+) to form NH3CH3+, which makes it a base.
HI
Any substance that imparts hydrogen ions (H+) into aqueous (water) solution can be an Arrhenius acid. Examples include HCl(aq), H2SO4(aq), HNO3(aq).
No, table sugar (sucrose) is not an Arrhenius acid. Arrhenius acids are substances that ionize in water to produce hydrogen ions (H+). Table sugar does not ionize in water and therefore does not act as an acid in this sense.
No, HI (hydroiodic acid) is not considered an Arrhenius acid because it does not dissociate in water to release H+ ions as defined by the Arrhenius theory.
NH2CH3, known as methylamine, is a weak base. It can accept a proton (H+) to form NH3CH3+, which makes it a base.
HI
Any substance that imparts hydrogen ions (H+) into aqueous (water) solution can be an Arrhenius acid. Examples include HCl(aq), H2SO4(aq), HNO3(aq).
No, table sugar (sucrose) is not an Arrhenius acid. Arrhenius acids are substances that ionize in water to produce hydrogen ions (H+). Table sugar does not ionize in water and therefore does not act as an acid in this sense.
Salt and water are formed from the neutralization of an Arrhenius acid with an Arrhenius base.
An Arrhenius acid increases [H+] in the solution.
No, HI (hydroiodic acid) is not considered an Arrhenius acid because it does not dissociate in water to release H+ ions as defined by the Arrhenius theory.
CH3CH3, also known as ethane, is neither an acid nor a base. Acidic and basic properties are associated with substances that can release or accept protons. Ethane does not have the ability to do either, so it is not considered an acid or a base.
HI
An Arrhenius acid increases [H+] in the solution.
H2SO4 is a strong acid known as sulfuric acid
Hydrofluoric acid is the Arrhenius acid that contains the fluoride anion.