Notice! Mass of solution = mass of solute in grams plus<\/strong> mass of solvent in grams.<\/p>\n\n\n\n
Since the grams cancel out, the final unit will be in percent. For example, a 20.0 percent sodium chloride (NaCl) solution will contain 20.0 g of NaCl in 100 g of solution (20 g\/100 g). Since mass of solution is equal to 100 g, we can get the mass of solvent by subtracting 20 g of solute from the 100 g of solution (100 g \u2013 20 g = 80 g of solvent). So, if water was used as our solvent, our mass of water will be 80 g. This means that the 20 g of NaCl\/80 g of water can be used as a conversion factor to convert from mass of solute to mass of solvent and vice versa.<\/p>\n\n\n\n
For example,<\/em> The 20 percent NaCl solution means 20 g of NaCl\/100 g of solution (read as 20 g of NaCl in a 100 g of solution). Since the question demands how many grams of NaCl must be added to 1000 g of water, we have to figure out the amount of water in the 20 percent of solution so that we can set up the correct conversion factor. To get that, we simply subtract 20 g of NaCl from the 100 g of solution (100 g \u2013 20 g = 80 g of water). To figure out how many grams of NaCl must be added to 1000 g, we simply multiply the 1000 g of water by 20 g NaCl\/80 g water. If this calculation confuses you, click here<\/a> to read more about conversion factors. Here is a summary of the calculation:<\/p>\n\n\n
How many grams of NaCl must be added to 1000 g<\/em>
of water to prepare a 20.0 percent NaCl solution.<\/em><\/p>\n\n\n\nAnswer<\/strong><\/h3>\n\n\n\n
Now, our conversion factor is: 20 g NaCl\/80 g water.<\/p>\n\n\n\n
Thus, 1000 g H2<\/sub>O x 20 g NaCl\/80 g H2<\/sub>O = 250 g. Therefore, 250 g of NaCl must be dissolved in 1000 g of water to make a 20 % NaCl solution.<\/p>\n\n\n\n
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