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You have two objects made of the same substance. Object 1 is a cube with a mass of 375.5 g. You measure the side of the cube using a ruler and find it to be 3.17 cm. Object 2 is a sphere with a mass of 187.8 g. You find the volume of the sphere using water displacement. The volume of the water in a graduated cylinder initially is 120.0 mL, and when the sphere is added the new volume is 135.8 mL. a. Determine the volume of Object 1, in cm³, using the length of the side. b. calculate the density of object 1 in g/cm3, using this volume c. determine the volume of object 2, in mL, from the water displacement data d. calculate the density in g/mL of object 2 using this volume

You have two objects made of the same substance. Object 1 is a cube with a mass of 375.5 g. You measure the side of the cube using a ruler and find it to be 3.17 cm. Object 2 is a sphere with a mass of 187.8 g. You find the volume of the sphere using water displacement. The volume of the water in a graduated cylinder initially is 120.0 mL, and when the sphere is added the new volume is 135.8 mL. a. Determine the volume of Object 1, in cm³, using the length of the side. b. calculate the density of object 1 in g/cm3, using this volume c. determine the volume of object 2, in mL, from the water displacement data d. calculate the density in g/mL of object 2 using this volume

Chemistry
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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You have two objects made of the same substance. Object 1 is a cube with a mass of 375.5 g. You measure the side of the cube using a ruler and find it to be 3.17 cm. Object 2 is a sphere with a mass of 187.8 g. You find the volume of the sphere using water displacement. The volume of the water in a graduated cylinder initially is 120.0 mL, and when the sphere is added the new volume is 135.8 mL.

a. Determine the volume of Object 1, in cm³, using the length of the side.

b. calculate the density of object 1 in g/cm3, using this volume

c. determine the volume of object 2, in mL, from the water displacement data

d. calculate the density in g/mL of object 2 using this volume

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