Question #137db

1 Answer
Stefan V.
Sep 7, 2017

"0.3 g mL"^(-1)0.3 g mL1

Explanation:

The thing to remember when looking to determine the density of a given substance is that your ultimate goal is to find the mass of exactly 11 unit of volume of that substance.

That is, in essence, what density means--the mass of 11 unit of volume of a substance.

In your case, the volume of the sample is given to you in milliliters, "mL"mL, so you can say that 11 unit of volume would be "1 mL"1 mL.

Now, you know that "24.0 mL"24.0 mL of this substance have a mass of "6 g"6 g, so you can set up this information as a conversion factor to help you find the mass of "1 mL"1 mL of this substance.

1 color(red)(cancel(color(black)("mL"))) * "6 g"/(24.0 color(red)(cancel(color(black)("mL")))) = "0.3 g"

Since this represents the mass of exactly 1 unit of volume of this unknown substance, you can say that the density of the substance will be

color(darkgreen)(ul(color(black)("density = 0.3 g mL"^(-1)))) -> every "1 mL" of this substance has a mass of "0.3 g"

The answer must be rounded to one significant figure, the number of sig figs you have for the mass of the sample.

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