First calculate the molar mass of NaCl which is the mass of a mole of Na plus the mass of a mole of Cl or 22.99 + 35.45 = 58.44 g/mol
Weigh out 58.44 g NaCl.
Place the NaCl in a 1 liter volumetric flask.
Add a small volume of distilled, deionized water to dissolve the salt.
Fill the flask to the 1 L line.
Weigh out 58.44 g NaCl.
Place the NaCl in a 1 liter volumetric flask.
Add a small volume of distilled, deionized water to dissolve the salt.
Fill the flask to the 1 L line.
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First calculate the molar mass of NaCl which is the mass of a mole of Na plus the mass of a mole of Cl or 22.99 + 35.45 = 58.44 g/mol
1. Weigh out 58.44 g NaCl.
2. Place the NaCl in a 1 liter volumetric flask.
3. Add a small volume of distilled, deionized water to dissolve the salt.
4. Fill the flask to the 1 L line.
If a different molarity is required, then multiply that number times the molar mass of NaCl. For example, if you wanted a 0.5 M solution, you would use 0.5 x 58.44 g/mol of NaCl in 1 L of solution or 29.22 g of NaCl.
1. Weigh out 58.44 g NaCl.
2. Place the NaCl in a 1 liter volumetric flask.
3. Add a small volume of distilled, deionized water to dissolve the salt.
4. Fill the flask to the 1 L line.
If a different molarity is required, then multiply that number times the molar mass of NaCl. For example, if you wanted a 0.5 M solution, you would use 0.5 x 58.44 g/mol of NaCl in 1 L of solution or 29.22 g of NaCl.