pH = 14 is basic
pH = 7 is neutral
pH - 1 and 2 are acidic; pH = 1 is more acidic than pH = 2
Therefore a solution at pH 1 has higher concentration of H+ than at pH 14
It would help if there were at least one item following!
Anything less than 150 is great. In this case, 149 is the highest number that still falls within the desirable range.
Sometimes "infinity" is used to denote "the highest number" However, this usage is not correct. The idea of infinite is that there is no bound to something; for instance there are infinite whole numbers. The problem with saying that "infinity" is the highest number is what happens if you add 1 to it? The new number you get is clearly 1 higher than the old number. This may seem paradoxical; the solution is that there is no highest number, there is always a bigger number.
An equation of one variable and of first order (i.e., its highest power is one) is called a Linear equation in one variable.Such an equation has only one solution. A solution is also called the 'root' of the given equation.An equation of one variable and of first order (i.e., its highest power is one) is called a Linear equation. Such an equation has only one solution. A solution is also called the 'root' of the given equation.Solving linear equations in one variableFor Example Solve X/4 - (X-3)/6 = 1Solution:Multiplying throughout by the LCM of the denominators (which is 12):3x - 2 (x - 3) = 123x - 2x + 6 = 12x = 12 - 6x = 6
-- If the equation has only one variable (like 'x' or 'y'), and the only power of the variable anywhere in the equation is '1', then the equation has one solution. -- If the variable appears raised to powers higher than '1', then there are as many solutions as the highest power of the variable. -- If the equation has two or more variables, then there are an infinite number of solutions.
A pH of 0 indicates the highest concentration of H3O+ ions in a solution. This is because a low pH value corresponds to a high concentration of H3O+ ions present in the solution.
The highest pH value in a group of such values indicates that the greatest concentration of hydroxide ions is present in the substance with the highest pH. This is true because a higher pH indicates a lower concentration of hydrogen ions, and the product of the molar concentrations of hydrogen and hydroxide ions must always be 10-14 at standard temperature and pressure in a mixture that is mostly water.
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.
The concentration of water in a solution is highest in a dilute solution and lowest in a concentrated solution. This concentration is affected by the amount of solute present, with a higher solute concentration leading to less water present in the solution.
The pH scale works like this:1 being acidic, like lemon juice,10 is basic, amoniathe lower the number the more acidic, higher numbers are basic and 7 is neutralthe stronger the base, the higher the number, which means a higher OH ion concentration. the stronger the acid, the lower the number, means a higher H3O ion concentration and a lower OH concentration.
That is what is known as an aqueous solution.
There are more than three gases that are found in solution in the ocean. The three that occur in highest concentration are oxygen, hydrogen and carbon dioxide.
The strongest base a pH can have is 14. A pH of 14 indicates a highly alkaline solution with a high concentration of hydroxide ions.
In a dynamic equilibrium with hydrogen cyanide dissolved in water, the majority of the solution will contain undissociated hydrogen cyanide molecules. This means that hydrogen cyanide (HCN) in its molecular form will be present in the highest concentration. There will also be some hydronium ions (H3O+) and cyanide ions (CN-) in solution due to partial dissociation.
Zero is the lowest number on the pH scale because it represents the highest concentration of hydrogen ions in a solution, indicating strong acidity. As the pH scale is logarithmic, each whole number change represents a tenfold difference in hydrogen ion concentration. In comparison, a pH of zero signifies the highest concentration of hydrogen ions, making it the most acidic point on the scale.
The reacting sucrose solution color will depend on the concentration of the sucrose in solution. The higher the concentration, the darker the color: green is the least concentrated, to yellow/orange, red, and brown with the highest concentration.
When all the solute a solution can hold is dissolved, it is called a saturated solution. It contains the highest concentration possible for a solution.