Suppose you have 150. mL of a substance with a density of 36.0 g/dm³ and want to determine the mass of the substance. The calculation can be broken down into three steps. First, convert the volume from milliliters to liters. Then, convert the volume from liters to cubic decimeters. Finally, determine the mass of the sample in grams. Show the unit analysis by placing the correct components into the unit-factor slots. The question marks (?) represent the answer to the previous step. Step 1. Step 2. Step 3. Step 1: Step 2: 150. mL X Step 3: ?LX ? dm³ x = <= ? L ? dm³ ?g Ig Answer Bank I dm³ I ml. IL Now, calculate the result of each step, ending with the mass of the substance after step 3. 1000 ml 100 ml. 1000 L 36.01. 36.0 g 10 dm³ L 3 dm³ 60

Suppose you have 150. mL of a substance with a density of 36.0 g/dm³ and want to determine the mass of the substance. The calculation can be broken down into three steps. First, convert the volume from milliliters to liters. Then, convert the volume from liters to cubic decimeters. Finally, determine the mass of the sample in grams. Show the unit analysis by placing the correct components into the unit-factor slots. The question marks (?) represent the answer to the previous step. Step 1. Step 2. Step 3. Step 1: Step 2: 150. mL X Step 3: ?LX ? dm³ x = <= ? L ? dm³ ?g Ig Answer Bank I dm³ I ml. IL Now, calculate the result of each step, ending with the mass of the substance after step 3. 1000 ml 100 ml. 1000 L 36.01. 36.0 g 10 dm³ L 3 dm³ 60

Chemistry: The Molecular Science

5th Edition

ISBN:9781285199047

Author:John W. Moore, Conrad L. Stanitski

Publisher:John W. Moore, Conrad L. Stanitski

Chapter2: Chemical Compounds

Section: Chapter Questions

Problem 105QRT

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