Highly acidic solutions are associated with a high concentration of H+ ions in a solution. Water has a pH (potenz Hydrogen) of 10^-7 or 7 which means that there is 10^-7 potential of any water molecule splitting and forming a H+ (and concurrently a OH-) at the time of observation. Acids (H2SO4, HCL, HNO3) consist of highly ionic molecules that, in solution more readily split into H+ ions (higher potential of H+ ions, 10^-2 is typical, pH 2). Acids are associated with oxidising (adding H+, acid burning).
A pH of 1-7 means that the solution concerned is definitely acidic. There is a larger abundance of protons in these solutions than in alkaline solutions of pH 8-14. pH 7 is neutral- neither acidic or alkaline. This figure is based on the pH of water.
Which of the unknown colorless solutions is (are) acidic
It is a white crystalline salt that is highly soluble in water. Solutions of ammonium chloride are mildly acidic.
The more acidic of two acidic solutions has more H+ ions per liter.
No, alkaline and acidic are exact opposites.
A pH of 1-7 means that the solution concerned is definitely acidic. There is a larger abundance of protons in these solutions than in alkaline solutions of pH 8-14. pH 7 is neutral- neither acidic or alkaline. This figure is based on the pH of water.
Which of the unknown colorless solutions is (are) acidic
It is a white crystalline salt that is highly soluble in water. Solutions of ammonium chloride are mildly acidic.
The more acidic of two acidic solutions has more H+ ions per liter.
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.
No, alkaline and acidic are exact opposites.
Sour,Bitter,Can burn you
no
The pH is under 7.
Red color in acidic solutions and blue color in basic solutions.
yes vinegar is quite highly acidic
Acidic solutions have a pH under 7.