A pH of 1 has a higher H+ concentration
Not necessarily. The pH of a solution depends on the strength of the acid and its concentration. Some acids at the stronger end of weak acids can form a solution with a pH of 1 at a high enough concentration.
The pH of phosphoric acid will vary depending on its concentration. For a 1 M solution of phosphoric acid, the pH will be around 2.1.
The pH of phosphoric acid at a concentration of 1 mole per litre, is 1.08
A pH of 1 is very acidic (stomach acid) while pH7 is neutral and pH14 is very basic.
Muriatic acid is a very strong acid. The pH will vary depending on the concentration of the acid. A 10% concentration (by weight) has a pH of around -0.5 while a 38% concentration has a pH of around -1.1. I found this information at: http://en.wikipedia.org/wiki/Muriatic_acid.
Not necessarily. The pH of a solution depends on the strength of the acid and its concentration. Some acids at the stronger end of weak acids can form a solution with a pH of 1 at a high enough concentration.
The pH of phosphoric acid will vary depending on its concentration. For a 1 M solution of phosphoric acid, the pH will be around 2.1.
1
The pH of phosphoric acid at a concentration of 1 mole per litre, is 1.08
A pH of 1 is very acidic (stomach acid) while pH7 is neutral and pH14 is very basic.
Muriatic acid is a very strong acid. The pH will vary depending on the concentration of the acid. A 10% concentration (by weight) has a pH of around -0.5 while a 38% concentration has a pH of around -1.1. I found this information at: http://en.wikipedia.org/wiki/Muriatic_acid.
The pH value of the solution depends on the strength of the acid, in other words, acid concentration.
i think a strong acid ionizes completely in water while a weak acid ionizes partiallly in water therefore the pH of a strong acid is greater than that of a weak acid The first part of your answer was correct, but the second was reversed. The pH of a strong acid is lower than the pH of a weak acid.
A solution with a pH of 3 has a greater concentration of hydrogen ions compared to a solution with a pH of 7. The pH scale is logarithmic, so each pH unit represents a tenfold difference in hydrogen ion concentration.
We cannot tell the pH value of sulphuric acid without knowing the concentration of the sulphuric acid. As sulphuric acid is acid; so, its pH will be in the range of 1 to 6.9, depending upon its concentration.
The pH of an acid depends completely on the concentration of the acid, thus, an extremely concentrated solution of phosphoric acid will have a low pH, and a less concentrated solution (as in some soft drinks) would have a slightly higher pH.
The stomach has the strongest acid concentration in the body. It is known as gastric acid and has a pH of 1 to 2 and is composed of hydrochlorlic acid.