use titration formula
You will get a pink to a pinkish-red solution depending on how concentrated the sodium hydroxide (NaOH) is.
The pH becomes lower, appoaching a level of 7 if the solution is diluted sufficiently to become almost neutral.
Fehling's solution A= concentrated aqueous solution of Copper (II) sulphate, Fehling's solution B= solution of Sodium-potassium tarterate + sodium hydroxide.
Sodium hydroxide is used in furosemide injection assay because sodium hydroxide is pH-control and sodium hydroxide control the solution or the solution in stable.
Any acid can be used to neutralize a base such as sodium hydroxide. If you have a concentrated solution of sodium hydroxide, you could neutralize it most efficiently with a strong acid such as hydrochloric acid. You can also neutralize it with Coca Cola, or vinegar, or many other acidic chemicals, but it would require a larger amount than if you used hydrochloric acid.
You will get a pink to a pinkish-red solution depending on how concentrated the sodium hydroxide (NaOH) is.
A concentrated solution of sodium hydroxide can destroy any form of life.
Sodium does not react with concentrated sodium hydroxyde. It reacts with the water molecules (in diluted NaOH) to form sodium hydroxyde and hydrogen gas.
Gastric fluid
This is the solution of gastric fluid.
They are not comparable. Sulfuric acid is corrosive to some other material then Sodium hydroxide and vice verse.
The pH becomes lower, appoaching a level of 7 if the solution is diluted sufficiently to become almost neutral.
Fehling's solution A= concentrated aqueous solution of Copper (II) sulphate, Fehling's solution B= solution of Sodium-potassium tarterate + sodium hydroxide.
Method: titration with a standardized solution of sodium (or potassium) hydroxide.
Method: titration with a standardized solution of sodium (or potassium) hydroxide.
Sodium hydroxide is not an unknown solution.
No. A sodium hydroxide solution is very basic.