Well, look at the definitions of each quantity.... "Molarity"="Moles of solute"/"Volume of solution" "Molality"="Moles of solute"/"Kilograms of solvent" "Molality" is thus independent of temperature, whereas "molarity" changes slightly with temperature as the density of the solution changes. For dilute solutions, "molarity"-="molality". to a very good approximation.
Moles n solution: Calculate the molarity of a solution of NaOH made by dissolving 2moles of sodium hydroxide in water and making up to 250cm^3?
Moles n solution: Calculate the molarity of a solution of ... - Socratic
Titration affects molarity by changing the volume of the solution. For example, if you have a 1M solution of NaOH in 1 Liter, then you have 1M Na+ ions. If you titrate this with 1M HCl, then it will take 1 Liter of HCl to fully titrate this. However, your Na+ ion concentration is now 1 mole in 2 liters, or 0.5M. So titrations generally increase volume and reduce molarities
What is the molarity of 156 mL of solution made from 2.5 grams of KCl?
What is the molarity of 156 mL of solution made from 2.5 ... - Socratic
Every time you're looking for a solution's molarity, you must determine how many moles of solute you get in one liter of solution. That is what molarity essentially tells you - how many moles of solute you'd get if you had exactly one liter of solution. ∣∣ ∣ ∣ ∣ ...
What is the molarity of a solution prepared by dissolving 2.350 g KI in enough water to make 175.0 mL of solution ?
What is the molarity of a solution prepared by dissolving 2. ... - Socratic