It will turn neutral depending on the strength of both
A pH indicator: the color is changed at the end of the reaction, when the solution become alkaline.
If too little acid is added to an alkali, the resulting solution may not reach the desired neutral pH level. This could lead to the solution remaining basic or alkaline.
When an acidic solution reacts with an alkaline solution, a neutralization reaction occurs. The hydrogen ions (H+) from the acid and hydroxide ions (OH-) from the base combine to form water (H2O). The resulting solution is neutral, with a pH of 7.
Hydrogen will be liberated.
When hydrofluoric acid solution is reacted with a lithium hydroxide solution, lithium fluoride and water are formed as products. The reaction can be represented by the following equation: 2HF(aq) + LiOH(aq) → LiF(aq) + 2H2O(l)
The solution at the endpoint of an acid-base titration involving a weak acid and a strong base will be alkaline. This is because the weak acid will have been neutralized by the strong base, resulting in excess hydroxide ions in the solution causing it to be alkaline.
Na2So4
When a fatty acid is reacted with NaOH, a process called saponification occurs. This reaction results in the formation of soap, which is a salt of the fatty acid alongside glycerol. This reaction is commonly used in soap-making processes.
Magnesium oxide is a substance that can neutralize acid without leaving an alkaline solution. When it reacts with an acid, magnesium oxide forms magnesium chloride and water, with no excess alkalinity left in the solution.
An ammonia solution is alkaline.
Copper does not react with dilute Sulphuric acid.
No, an alkaline solution is a basic solution, not an acid. Alkaline solutions have a pH greater than 7, indicating that they have a higher concentration of hydroxide ions compared to hydrogen ions. Acids, on the other hand, have a pH lower than 7.