A student performs the Determining the Heat of Fusion of Water experiment and obtains the following data. mass of empty calorimeter (g): mass of calorimeter with hot water (g): hot water temperature just before adding ice ("C): 81.5 lowest water temperature ("C): mass of calorimeter with cooled water (g): 5.2191 54.8518 2.4 97.4000 Calculate the mass of the ice that melted during the experiment in grams. Report your answer to four decimal places. Your Answer: Answer

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Chapter1: Chemical Foundations
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A student performs the Determining the Heat of Fusion of Water experiment and
obtains the following data.
mass of empty calorimeter (g):
mass of calorimeter with hot water (g):
hot water temperature just before adding ice ("C): 81.5
lowest water temperature ("C):
mass of calorimeter with cooled water (g):
5.2191
54.8518
2.4
97.4000
Calculate the mass of the ice that melted during the experiment in grams. Report
your answer to four decimal places.
Your Answer:
Answer
Transcribed Image Text:A student performs the Determining the Heat of Fusion of Water experiment and obtains the following data. mass of empty calorimeter (g): mass of calorimeter with hot water (g): hot water temperature just before adding ice ("C): 81.5 lowest water temperature ("C): mass of calorimeter with cooled water (g): 5.2191 54.8518 2.4 97.4000 Calculate the mass of the ice that melted during the experiment in grams. Report your answer to four decimal places. Your Answer: Answer
Expert Solution
Step 1: Introduction

The steps involved in determining the mass of ice that has melted are:

Step 1:

Determination of mass of hot water added to calorimeter.

Step 2:

Determination of total mass of water present after melting of ice in calorimeter.

Step 3:

Now substracting mass of hot water present in calorimeter from total mass of water present after melting of ice to get mass of ice melted as mass can neither be created nor destroyed.

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