NaOH is a base. Its properties include being a strong alkali, highly corrosive, and capable of neutralizing acids. It is also known for its ability to dissolve in water and release hydroxide ions.
NaOH is a base.
NaOH is a base.
NaOH is a base.
NaOH is classified as a base.
The acetic acid odor disappeared after the addition of NaOH because NaOH is a strong base that can neutralize the acidic properties of acetic acid. This reaction results in the formation of water and sodium acetate, which are odorless.
NaOH is a base.
NaOH is a base.
NaOH is a base.
NaOH is classified as a base.
NaOH Is sodium hydroxide and is a strong base.
NaOH is a base because of its OH- group.
No, NaOH, sodium hydroxide, is a strong base, not an acid.
The acetic acid odor disappeared after the addition of NaOH because NaOH is a strong base that can neutralize the acidic properties of acetic acid. This reaction results in the formation of water and sodium acetate, which are odorless.
NaOH, or sodium hydroxide, is a strong base that reacts with an acid to form water and a salt. In the neutralization reaction, NaOH helps to neutralize the acidic properties of the acid by donating hydroxide ions, which combine with hydrogen ions from the acid to form water. This process results in the formation of a salt, which is a neutral compound.
A base such as sodium hydroxide (NaOH) can be added to hydroiodic acid (HI) to neutralize its acidic properties and form water and sodium iodide (NaI).
HCl is a strong acid, while NaOH, HF, and NH3 are not strong acids. NaOH is a strong base, HF is a weak acid, and NH3 is a weak base.
No, NaF and NaOH do not form a buffer solution together as a buffer solution requires a weak acid and its conjugate base, or a weak base and its conjugate acid. NaF is the salt of a weak acid (hydrofluoric acid) and a strong base (NaOH), so it does not act as a buffer. NaOH is a strong base and cannot act as a buffer solution by itself.