Chemistry question..?

1 ANSWERS

1. 
   

   Equations you need for this are.
   
   Molarity = moles / litres (M = mol / L)
   
   moles = mass / molecular weight
   
   Firstly, work out how many moles of KCl, you need to make up 100 ml of 0.25 M KCl.
   
   Molarity = mole / Litre
   
   therfore moles required = Molarity x Litre
   
   = 0.25 (M) x 0.1 (L)
   
   = 0.025 moles
   
   So 0.025 moles of KCl are required to make up your solution of KCl. So now you add the solutions together in such a way as to get a total of 0.025 moles of KCl in the final solution.
   
   Personally, I would start by using all the 0.4 M KCl solution. So work out how many moles of KCl are present in this solution.
   
   moles KCl in 50ml of 0.4 M solution = Molarity x L
   
   = 0.4 (M) x 0.05 (L)
   
   = 0.02 moles.
   
   So if you use all the 0.4 M siolution you have 0.02 moles. Since you need a total of 0.025 moles of KCl this means that you will have to get the other 0.005 moles of KCl by adding 2.5% KCl solution.
   
   To work out how much you need first work out the molarity of 2.5 % w/v KCl.
   
   % w/v means % weight per volume.
   
   For a 2.5% solution this means that 2.5 g of KCl is dissolved in 100 ml of solution.
   
   Now, the moles of KCl in this solution
   
   moles = mass / molecular weight
   
   = 2.5 / 74.5
   
   = 0.034 moles
   
   and the Molarity is
   
   M = mole / L
   
   = 0.034 (mol) / 0.1 (L)
   
   = 0.34 M
   
   You need an extra 0.005 moles of KCl, so work out what volume of the 2.5% (0.34M) KCl will provide 0.005 moles
   
   M = moles/L
   
   therefore L =  moles / M
   
   therfore L = 0.005 (mol) / 0.34 (M)
   
   = 0.0147 L
   
   = 14.7 ml
   
   Therefore 14.7 ml of 2.5% KCl solution contains 0.005 moles of KCl.
   
   So, Combine the 50 ml of 0.4 M KCl with 14.7 ml of the 2.5 % w/v KCl and make it up to 100 ml with water to give you the required solution.

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