In an acid-base reaction according to the Arrhenius definition, acids produce H+ ions in solution, while bases produce OH- ions. When an acid and a base react, the H+ ion from the acid combines with the OH- ion from the base to form water.
According to the Arrhenius definition, in an acid-base reaction, acids dissociate in water to produce H+ ions, while bases dissociate to produce OH- ions. The reaction involves the transfer of protons from the acid to the base, resulting in the formation of water.
Ba(OH)2 is not a strong acid, it is actually a strong base. When dissolved in water, it dissociates completely to produce hydroxide ions (OH-) and barium ions (Ba2+), making it a strong base.
CaSO4 is neither an acid nor a base. It is an ionic compound called calcium sulfate. When dissolved in water, it does not produce H+ or OH- ions to classify it as an acid or a base.
The conjugate base for H2O is the hydroxide ion, OH-. When the hydroxide ion reacts with another water molecule, a hydrogen ion may be transferred, resulting in a water molecule and a hydroxide ion. Therefore, the conjugate base of water is OH-
In an acid-base reaction according to the Arrhenius definition, acids produce H+ ions in solution, while bases produce OH- ions. When an acid and a base react, the H+ ion from the acid combines with the OH- ion from the base to form water.
According to the Arrhenius definition, in an acid-base reaction, acids dissociate in water to produce H+ ions, while bases dissociate to produce OH- ions. The reaction involves the transfer of protons from the acid to the base, resulting in the formation of water.
One way to produce water from an acid solution is through a neutralization reaction. By adding a base to the acid solution, the acid and base will react to form water and a salt. The salt can then be separated from the water to obtain pure water.
acid produces H+ ions base produces OH- ions
Ba(OH)2 is not a strong acid, it is actually a strong base. When dissolved in water, it dissociates completely to produce hydroxide ions (OH-) and barium ions (Ba2+), making it a strong base.
CaSO4 is neither an acid nor a base. It is an ionic compound called calcium sulfate. When dissolved in water, it does not produce H+ or OH- ions to classify it as an acid or a base.
Water can act as both an acid and a base according to the Arrhenius theory. In pure form, water can ionize to produce H+ ions (acting as an acid) and OH- ions (acting as a base).
The conjugate base for H2O is the hydroxide ion, OH-. When the hydroxide ion reacts with another water molecule, a hydrogen ion may be transferred, resulting in a water molecule and a hydroxide ion. Therefore, the conjugate base of water is OH-
A strong acids dissociates completely in water to produce hydronium (H3O+) ions A strong base dissociates completely in water to produce hydroxide (OH-) ions
H2SO4 is an Arrhenius acid because it ionizes in water to form H+ ions. LiOH and NH2CH3 are Arrhenius bases because they produce OH- or NH2- ions when dissolved in water. CH3CH3 (Ethane) is not an acid or base as it does not ionize in water to produce H+ or OH- ions.
NA4OH is a base according to Arrhenius theory, as it dissociates in water to produce hydroxide ions (OH-) which can accept protons.
The word equation for the reaction of an acid with a base is: acid + base → salt + water.