A very strong base would have a pH of 12, 13, or 14
pH10 is the stronger base. The pH levels go from 0-14. A pH higher than 7 is a base and lower than 7 is an acid a pH7 is neutral.
At pH = 10 there is 1*10-4 mol/L OH-
At pH = 8 there is 1*10-6 mol/L OH-
So at pH10 it is 100 times more OH- in this alkaline solution (and 100 times less H+)
A solution with a pH of 13 is a very basic solution.
13 is the stronger base. It is closer to the alkaline terminus of the pH scale, which is 14.
Higher is the value of pH stronger is the base so base with pH=12 is more strong.
The factor is 10.
A strong base will, in water, fullyhydrolyse to give (react into) hydroxide (OH-) ions.A weak acid will, in water, partially hydrolyse to give (react into) hydronium(H3O+, or H+) ions.The strong/weak difference is in bold, the base/acid difference is itallicalized.
Lye is a very strong base with a pH of 13.
pH 13 is definitely a base!
Base
Sodium Hydroxide Solution is a a strong Alkali with a pH reading of 13.
A strong base will, in water, fullyhydrolyse to give (react into) hydroxide (OH-) ions.A weak acid will, in water, partially hydrolyse to give (react into) hydronium(H3O+, or H+) ions.The strong/weak difference is in bold, the base/acid difference is itallicalized.
hii my name is ph 13
Lye is a very strong base with a pH of 13.
No. Alkali's and acids are an separate ends of the pH scale, the pH of acids being 1, 2, 3, 4 and 5 (strong to weak) and the pH of alkali's being 11, 12, 13, 14 and 15 (weak to strong). Examples of acids are hydrochloric acid (strong) and vinegar (weak). Toothpaste is an example of a weak alkali.
Mg(BrO3)2 is magnesium bromate. Yes, it is a salt, but when hydolyzed in water, it will have a pH that is slightly basic. Why? Because it is formed from the reaction of a strong base, Mg(OH)2 and a somewhat weak acid HBrO3. Thus, a solution of this salt will have a pH >7
The pH is the reciprocal log function of hydrogen ion availability, usually used in the context of a liquid or solution.Using many strong bases you could make a solution with a pH of 13 if you used the right concentration in the right solvent. In this case a good example would be sodium hydroxide.By example a 0.10 mol/L NaOH solution is of pH = 13.0 value
Here is a link to the make up of buffers from 1 to 13 . Scroll down for the pH 13 range, http://delloyd.50megs.com/moreinfo/buffers2.html ph 13 buffer needs to use Sodium Hydroxide. You can only get to pH 10 with Ammonia. Ammonia is only a 'weak' base to get to pH 13 you need a 'strong ' base ,strong bases are the Hydroxide's of Sodium, Potassium or other alkaline metals. Here is a link that explains the concept of weak and strong base's http://en.wikipedia.org/wiki/Base_(chemistry)
pH 13 is definitely a base!
The pH of a weak base can be anything greater than 7.0. Generally, weak bases do have a lower pH that strong bases, but this is not always true. The fact that a base is weak only means that it does not completely ionize in solution. The pH of a weak base depends only upon the concentration of hydroxide ions (OH-) in solution.
Base
A base can neutralize a acid of its opposite pH (potential hydrogen) which is a scale of 1-14 so if a base is a 14 it can neutralize a 1, a 13 a 2 and so forth. Until you get to 7, which is pure water (neutral)
13-14