NO!!! Dilution and concentration can be thought of as Chemical OPPOSITES.
diluting is by definition, making something less concentrated.
A base is a material which dissolves in water to give an alkali solution. The hydrogen ion concentration, usually known as the pH. pH = 7 = neutral. pH > 7 = alkali. pH < 7 = acid.
Benzaldehyde is the simplest aromatic aldehyde. The oxidizing agent used in Fehling's solution is not strong enough to oxidize the aromatic ring. Therefore Benzaldehyde doesn't show Fehling's test. I hope it helped :)
If the acid or alkali forms an insoluble salt, you could titrate it that way. For instance, suppose you had a solution of sulfuric acid of unknown concentration. You could add calcium hydroxide until the precipitate stops forming and determine the strength of the acid by the amount of base added. If both the acid and alkali are soluble, a pH meter can be used to measure the change in pH of the solution. Drawing the change of pH against volume titrated will thus give the endpoint of the reaction.
neutral Ph 7
Measuring 3ml of Glacial Acetic Acid in a 100ml volumetric flask and diluting the same with water upto the 100ml mark will give exactly 3% solution of Acetic Acid containing 97% water...thats all, thank you
no it doesn't.dissolving or making a solution of an acid makes a more dilute solution of the acid.
When comparing solutions, those that have the same concentration are isotonic. One that is more concentrated is hypertonic; less concentrated is hypotonic.
For example an alkali metal.
A base is a material which dissolves in water to give an alkali solution. The hydrogen ion concentration, usually known as the pH. pH = 7 = neutral. pH > 7 = alkali. pH < 7 = acid.
It would depend on which acid and alkali were involved, the general rule is that adding an acid to an alkali will produce a salt and water. Sulphuric acid and sodium hydroxide would give sodium sulphate + water Hydrochloric acid and potassium carbonate would give potassium chloride and water and carbon dioxide etc
If you are wondering its concentration there are two signs both of which give qualitative measure of how concentrated a solution of kool-aid is. the first one is by colourmetic evaluation, which simply is looking at the intensity of the colour of the solution to judge how concentrated. If you have a few standards with known concentrations one may guess at the approximate concentration of the solution. The second method is to taste the solution and judge the flavour/sweetness of the solution.
i m not sure with my answer... i think so it wont answer.. since we use highly concentrated alkali medium.. Chlorine will reacts more faster than carbonyl carbon and forms aldehydic acid.
Alkali metals GIVE electrons (the only one electron that they do have) so that they may become balanced.
When using a solubility curve to make a prediction about the amount of a solute within a solution, you must increase the amount of solute to make a solution, which will give you a concentrated solution
I give an example for ammonium salt ....hmm.... lets just take ammonium chloride as an example . How about alkali ? I take calcium hydroxide as an example for alkali . Calcium hydroxide is formed when calcium oxide reacts with water whereas ammonium chloride is formed when hydrochloric acid reacts with ammonia solution . Calcium hydroxide (alkali) + ammonium chloride (ammonium salt) --> calcium chloride + carbon dioxide + water .
alkali metals give out electrons which is surrounded by ammonia. this is having blue colour
Benzaldehyde is the simplest aromatic aldehyde. The oxidizing agent used in Fehling's solution is not strong enough to oxidize the aromatic ring. Therefore Benzaldehyde doesn't show Fehling's test. I hope it helped :)