Preparing Standard Solutions

This page will help you to master the preactical details involved in preparing standard solutions.

Suppose that you need to prepare 500 ml of a 0.050 M solution of sodium chloride.

Preliminary calculations:

A 0.050 M solution will contain 0.050 moles of solute in 1.00 l of solution. Now, sodium chloride has a Mr = 58.44, so the solution will contain 58.44 x 0.050 = 2.922 g.l-1. Since we only want 500 ml (i.e. ½ l, we will only require 1.461 g of NaCl.

These calculations should be entered in your laboratory workbook.

Equipment and reagents required:

You will need:

  • Analytical grade sodium chloride.
  • Distilled water.
  • A top-loading balance accurate to 0.01 g.
  • Glassine paper.
  • A spatula.
  • A small beaker (50 ml).
  • A 500 ml volumetric flask
  • A wash-bottle filled with distilled water.


Step 1:

Tip about 3 g of the sodium chloride into the small beaker. (As a rule, do not put spatulas into bottles of analytical grade reagents. This is important in order to maintain the purity of their contents. Close the bottle as soon as you have finished with it.

Step 2:

Place a square of glassine paper on the pan of the balance. Adjust the reading to 0.00 g. Using the spatula, gradually add small quantities of the sodium chloride from the beaker until a reading of 1.46 g is obtained. Switch off the balance. Make sure that no reagent has been spilled onto the pan. If you seen any reagent, clean the pan and start over.

Step 3:

Pour the contents of the glassine paper CAREFULLY into the volumetric flask. If any crystals stick to the paper, wash them in with the wash bottle.

Step 4:

Add about 200 ml distilled water to the flask, and swirl it gently until all crystals are dissolved.

Step 5:

Add distilled water carefully up to 2-3 cm below the mark on the flask. Make up to the final volume with the wash-bottle (Do not overfill!). Stopper the flask and turn it upside down a few times to thorougly mix the contents.

Step 6:

Pour the contents of the flask into a clean, dry blue-top reagent bottle.

Make sure that you label the bottle with its contents, your name, and date of preparation.

Stock solutions:

Rather than preparing small quantities of a standard solution every time you require it, it is better to prepare a relatively large volume of a concentrated stock solution, and dilute it as required. For example, suppose you have made up 2 l of a 3 M sodium carbonate solution, as described above. Then, if you need 100 ml of a 0.01 M Na2CO3 solution, you would need to dilute this solution 300 times:

Pipette 0.33 ml of your stock solution, using a Gilson pipette, into a 100 ml volumetric flask, and make up to the mark with distilled water. Use what you need, and discard the rest.

The use of Gilson pipettes is discussed in the next page.

Serial dilution:

Suppose you have a stock solution of a reagent, at 1.0 M. If you take 1.0 ml of that solution, and dilute it to 10.0 ml in a volumetric flask, you will have a new stock solution which will have 1/10th the concentration of the original solution. This process can be repeated, each time obtaining a solution which is 10 times more dilute than the previous one. Great care must be taken that the volumes are accurately dispensed, as errors increase exponentially as one makes several dilutions in this way.




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