The volume is 342 mL.
Assuming you want 0.1% weigh/volume, you dissolve 0.1 g mercuric chloride in 100 ml of solution. So, you would weigh out 0.1 g (100 mg) of solid and dissolve in enough solvent to make a final volume of 100 ml.
To convert make a dillute solution from a concentrated one, take the amount of moles needed for the final solution as mL of concetrated solution, and dillute with water until the desired volume is reached.
Look up molecular mass of lead nitrate in the periodic table. Formula of lead nitrate is Pb(NO3)2 Molecular mass is 331.2 gm/mole A one molar solution has 1 mole per liter of solution. 13.6 grams/331.2 gm/mole = 0.041 moles 0.041 moles/0.15 molar = .274 liters This is not exactly correct, because when you add a solute to a solvent, the volume of the solution may be more or less than the original volume of solvent, depending upon the interaction of the solvent and the solute. Actually, the final volume of solution should be 0.274 liters. The most accurate way is to dissolve the solute is slightly less than the calculated amount of solvent needed, and then adjust the volume to the final amount after the solute is completely dissolved.
V1M1 = V2M2(x ml)(2 M) = (100 ml)(0.4 M) x = 20 ml Take 20 ml of 2 M magnesium sulfate solution and dilute to a final volume of 100 mls.
Molarity is defined as moles solute/liter of solution6 moles/2 liters solution = 3 molar NOTE: This assumes no volume change and 2L is the final volume of solution.
Take solution and mix different volumes with water as the final volume of all solutions is same
What volume do you want to make. To make 1 liter, you take the 185 g (the molar mass) and dissolve in enough solvent to make the final volume 1 liter.
some liquid volumes are not additive, leading to potentially confusing final solution volumes.
some liquid volumes are not additive, leading to potentially confusing final solution volumes.
It depends on the final solution Volume you want to prepare. For 100ml of a 6M NaCL solution, you add 35.1g of NaCl to water until you reach 100ml. Dissolve and autoclave for 15 mins.
Adding more solvent to a solution decreases the molarity of the solution. This is based on the principle that initial volume times initial molarity must be equivalent to final volume times final molarity.
To prepare a 20% (v/v) solution of ethanol, you need to mix 20 mL of pure ethanol with enough solvent to make a total volume of 100 mL. This means that for every 100 mL of solution, there are 20 mL of ethanol. You can use a volumetric flask to accurately measure the volume of the ethanol and the solvent. It is important to note that the volume of the final solution may not be exactly 100 mL due to the fact that liquid volumes are not necessarily additive.
Assuming you want 0.1% weigh/volume, you dissolve 0.1 g mercuric chloride in 100 ml of solution. So, you would weigh out 0.1 g (100 mg) of solid and dissolve in enough solvent to make a final volume of 100 ml.
To convert make a dillute solution from a concentrated one, take the amount of moles needed for the final solution as mL of concetrated solution, and dillute with water until the desired volume is reached.
initial molarity*initial volume= final molarity*final volume Initial molarity= 1.50M Initial volume= 20.00ml Final Volume=150.0ml Thus final molarity =1.50M*20ml/150ml=0.200M. New molar concentration= final molarity
What volume of this solution do you desire? Let's say you want to make 1 liter of such a solution. You would weigh out 1 gram (1000 mg) of NaCl and dissolve it in enough water to make a final volume of 1 liter (1000 ml). Since 1000 ppm means 1000 mg/liter, this is how you make 1 liter of that solution. For larger or smaller volumes, adjust appropriately.
42.8 grams of KIO3 and add H2O until the final homogeneous solution has a volume of 2.00 liters