Question

A solid block of a heat-resistant plastic with a total mass of 10.211 g is dropped into a graduated cylinder of water to determine its volume. The graduated cylinder is shown before and after the plastic has been added. Use the information shown here to determine the density of the plastic. Be sure to report your answer to the appropriate number of significant figures. 

   A solid block of a heat-resistant plastic with a total mass of 10.211 g is dropped into a graduated cylinder of water to determine its volume. The graduated cylinder is shown before and after the plastic has been added. Use the information shown here to determine the density of the plastic. Be sure to report your answer to the appropriate number of significant figures.
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Chemistry. Atoms First
Chemistry. Atoms First
Julia Burdge, Jason… 5th Edition
Chapter 1, Problem 109 ↓
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A solid block of a heat-resistant plastic with a total mass of 10.211 g is dropped into a graduated cylinder of water to determine its volume. The graduated cylinder is shown before and after the plastic has been added. Use the information shown here to determine the density of the plastic. Be sure to report your answer to the appropriate number of significant figures.
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Transcript

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00:01 Problem with the diagram and i've tried to, or an image here, i tried to write that image.
00:07 So we are told that we have a piece of metal with a mass of 13 .2 grams.
00:12 Our initial volume in our graduated cylinder is 17 .00 milliliters.
00:17 And then this is shown, this is our final volume.
00:23 We are asked to find density.
00:31 Okay, so we know density equals mass divided by volume.
00:34 So in this problem, our density will equal our mass, 13 .2 grams.
00:41 And we're going to subtract from that, i don't know why i have grams there, 18 .44 millimeters, which i've read my volume to be here, minus 17 .00 milliliters...
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