You can't convert that - they measure completely different things. pH is a measure of acidity. Bar is a measure of pressure.
5000000 gold bars equal 5000000!
The pH is define in the following way: pH = -log [H+] What that means is the pH is the negative of the base 10 logarithm of the concentration of hydrogen ions in the solution. So, if you have a pH = 0, that means that the concentration of H+ is equal to 1 molar, because -log(1) = 0. If you have a 1 M solution of any strong acid, the pH will be equal to zero.
720 Granola bars in 9 minutes720/9 = 80 Granola bars in one minute80 * 15 = 1200 Granola bars in fifteen minutes.
The negative logarithm of the molar concentration of hydronium (H3O+) ions. pH=-log[H3O+]
If by pH you mean the acidity of a compound then by combining equal amounts of each pH they would all "cancel each other out" i.e. neutralise which leaves a pH of 7
15 bars is equal to (using google):
5000000 gold bars equal 5000000!
A pH equal to 7,00 is the neutral pH.
15 pH
It is in the stair-waist from the bottom with min. covering of 15 mm. or equal to the dia. of the main reinforcement (whichever is greater). The main bars are perpendicular to the treads and risers the distribution bars are perpendicular to the main bars and are above it.
High Yeild Steel bars of Yeild strength equal to 415MPa.
Phosphorus
15 million
45.359237 chocolate bars, so about 45-46 bars
pH = - log10 [H+], where [H+] is the molar concentration of hydrogen ions. HNO3 is a strong acid and dissociates completely in water so a 5 M solution of HNO3 would have a concentration of hydrogen ions of 5M also. So, pH = -log10[5] = -0.699 which indicates an extremely strong acid.
Its pH is 3
The pH is define in the following way: pH = -log [H+] What that means is the pH is the negative of the base 10 logarithm of the concentration of hydrogen ions in the solution. So, if you have a pH = 0, that means that the concentration of H+ is equal to 1 molar, because -log(1) = 0. If you have a 1 M solution of any strong acid, the pH will be equal to zero.