In an aqueous solution the solvent is water.
No, not all homogeneous mixtures are solutions. While all solutions are homogeneous mixtures, there are other homogeneous mixtures, such as colloids and suspensions, that do not meet the criteria of a solution (solute completely dissolved in a solvent).
No, vinegar is not an isotonic solution. Vinegar is an acetic acid solution, which means it has a different osmotic pressure compared to isotonic solutions.
It depends upon amount of solute if it in low concentration then solutions are Dilute solutions if it is very lw then solutions are very Dilute solutions.
The abbreviation for the term "potential of hydrogen" is pH. It is a measure of the acidity or alkalinity of a solution, including water solutions.
The screening criteria of "diversity of alternatives" ensures that potential solutions provide different options by requiring that each solution proposal is distinct and offers a unique approach to the problem. This criteria helps to prevent redundancies and encourages a comprehensive exploration of possible solutions.
Describes a problem and relays a potential solutions.
Describes a problem and relays a potential solutions.
There are many different types of solutions. Some examples of different solutions are isotonic solutions, hypertonic solutions and hypotonic solutions.
In an aqueous solution the solvent is water.
it might have a different solution
the kinds of solutions are saturated and saturated.
basic solutions have more bases in them, molecules that release 0H- ions in the solution. acidic solutions have more acids, molecules that give off H+ ions in the solution
A true solution is a homogeneous mixture.
A true solution is a homogeneous mixture.
Take solution and mix different volumes with water as the final volume of all solutions is same
The molarity of solution is the number of moles of solute per liter of solution. M (molarity ) = n / V = moles of solute / liters of solution = x.xxx M Thus, solutions can have different molarities because they can have different amounts of solute (in moles) per liter of solution.