Question #ce84d

1 Answer
Stefan V.
Oct 4, 2017

The answer is (C) "329 g mol"^(-1)329 g mol1.

Explanation:

The idea here is that the minimum molar mass of the compound will correspond to a salt that contains 11 mole of sodium.

In other words, the minimum molar mass occurs when 11 mole of this salt contains 11 mole of sodium.

Now, let's assume that we're dealing with a sample of this salt that contains exactly 11 mole of sodium. This implies that the sample will also contain 11 mole of salt.

As you know, sodium has a molar mass of about "23.0 g mol"^(-1)23.0 g mol1. This means that this sample, which contains 11 mole of sodium, will contain "23.0 g"23.0 g of sodium.

By definition, you know that the salt is 7%7% by mass sodium, which means that every "100 g"100 g of salt contains "7 g"7 g of sodium. This implies that the mass of the sample will be

23.0 color(red)(cancel(color(black)("g Na"))) * "100 g salt"/(7color(red)(cancel(color(black)("g Na")))) = "328.57 g salt"

Since we've established that this sample contains 1 mole of salt, you can say that the molar mass of the salt is

M_ ("M salt") = "328.57 g"/"1 mole" ~~ color(darkgreen)(ul(color(black)("329 g mol"^(-1))))

This represents the minimum molar mass of the salt because it corresponds to 1 mole of sodium per mole of salt.

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