A solution of HCl is highly dissociated into ions,
A 0.000001 M solution (1 x 10-6) has a pH of 6 ... close to neutral.
A 0.001 M solution (1 x 10-3) has a pH of 3 ... more concenterated, but still not a really concentrated solution.
A 0.1 M solution (1 x 10-1) has a pH of 1 ... even more concentrated. showing it is more acidic.
The more concentrated solution is hypertonic and osmotic pressure (a hydrostatic force whose sole purpose in life is to make concentrations equal) tends to move solvent into the more concentrated solution. It will stop rising when either a) the solution concentrations are the same on both sides of the membrane, or b) when the osmotic pressure becomes equal to the ambient air pressure.
A low pH solution will inherently be acidic. 12.0 M hydrochloric acid and sulfuric acid both are extremely acidic. highly concentrated high dissociation molecules make for very acidic solutions.
Not necessarily, if a solution of a strong acid is very dilute it will have a higher pH than some weak acids in higher concentrations.
A solution is a type of mixture at the molecular/atomic level. Mixtures that are not solutions usually contain particles visible at either the microscopic or macroscopic level.
it contains the least amount of the total energy.
When you measure it against a middle concentrated solution. If your cup goes up its low concentration if it goes down its high concentration.
The more concentrated solution is hypertonic and osmotic pressure (a hydrostatic force whose sole purpose in life is to make concentrations equal) tends to move solvent into the more concentrated solution. It will stop rising when either a) the solution concentrations are the same on both sides of the membrane, or b) when the osmotic pressure becomes equal to the ambient air pressure.
pH depends on the concentration of the acid as well as how strong it is. A 1.0M solution ( a measure of the number of molecules per liter) has a pH of 0 but a more dilute solution will have a higher (less acidic pH).
They are concentrated under a central level in a unitary government.
Dilute it... No other way
HNO3 is nitric acid. De[emdimng on its level of concentration it can vary from '0' (very concentrated ; 16M) to '3'. ) low concentration (dilute ' say 0.6 M).
The question is impossible to answer. The terms "strong" and "dilute" are not defined. This is particularly relevant since no matter how strong an acid in its pure form, if sufficiently diluted, there may be one active molecule of the acid in a kilo litre of solution
A low pH solution will inherently be acidic. 12.0 M hydrochloric acid and sulfuric acid both are extremely acidic. highly concentrated high dissociation molecules make for very acidic solutions.
Your question is a little ambiguous. However, in general, there is normality, molality and molarity which each describe the concentration of a solute into a solvent. The fraction of moles of solute to solvent could correctly be termed the "molar fraction" or, "molal fraction" depending on whether the solvent is expressed in volume or weight respectively. By contrast, normality is based on the chemical functionality of the solute, for example a 1M solution of sulfuric acid would be about a 2N solution of acid.
3 acids that you would likely be allowed to use in school are hydrochloric acid (HCl), sulphuric acid (H2SO4) and Acetic acid (ethanoic acid, CH3COOH). Keep in mind that at school level, these are likely to be dilute acids as opposed to concentrated acids.
Not necessarily, if a solution of a strong acid is very dilute it will have a higher pH than some weak acids in higher concentrations.
There is a error and there is no solution of it...:)