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It would be named as a dilute solution of a weak acid.
Muriatic acid is an aqueous solution of HCl. Since this is a strong acid, and it ionizes 100% into H+ and Cl- ions, it would be a good conductor of electricity, i.e. it is a strong electrolyte.
The solvent in a solution is dissolving the solute. A solution is groups of molecules that are mixed in a completely even distribution. Basically a solute dissolved in a solvent. An example of a solvent would be water and a solute could be sugar. The sugar would dissolve in the water which would be a solution.
s a big bum
A buffer solution is one involving a weak base/weak acid with its conjugate acid/base. In a buffer solution, the pH must be changed to only a small amount. Thus, any solution with a STRONG acid or a STRONG base is not a successful buffer solution because there would be a relatively large change in the initial pH.
It would be named as a dilute solution of a weak acid.
Muriatic acid is an aqueous solution of HCl. Since this is a strong acid, and it ionizes 100% into H+ and Cl- ions, it would be a good conductor of electricity, i.e. it is a strong electrolyte.
RbOH is a strong base because it completely disassociates in solution. Rb + cations and OH - anions would almost be all you would find in solution.
Yes. Most of it would dissolve in water, making it a strong electrolyte.
To find out the strength of the pH scale. You measure Acids 0-6. 0 would be the strongest and 6 would be the weakest. 7 is neutral. You measure Base 8-14. 14 would be the strongest and 8 would be the weakest. Hope this helps!=D A strong acid completely dissociates in solution creating Hydronium (H3O+) ions, and a strong base completely dissociates in solution creating hydroxide (-OH) ions
pH of a strong acid would be '1' or '2' pH of a weak acid would be '5' or '6' . NB 'pH' is a logarithmic scale of the hydrogen ion content of a substance. The small/bigger the number, the greater/lesser the hydrogen ion content.
Diluted Ammonia solution can be prepared by diluted strong ammonia solution with the appropriate quantity of purified water.
The strongest acids would have a pH of 1 where it would completely dissociate in aqueous solution. There is a list of common strong acids if you look it up. HI being the strongest acid.
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That would be a 5% solution of Lugol's iodine.
It is a strong monoprotic base. Monoprotic means it can accept a proton (and Bronsted-Lowry theory calls proton acceptors BASES) So yes it can accept 1 (mono) proton. Strong acids or bases dissociate completely in aqueous solutions. Therefore this strong monoprotic base would dissociate completely into component ions in solution (this case water) yielding Na+, OH- and H20 (and heat).
Yes In theory, you could have a very weak solution of a strong acid and a stong solution of a weak acid and they would have the same pH.