A 48.4-g sample of an unknown metal at 100.0 °C is placed in a constant-pressure calorimeter containing 41.0 g of water at 25.47 °C. Assume that the heat capacity of the calorimeter equals the heat capacity of the water it contains. The final temperature is 28.11 °C. Calculate the heat capacity of the metal and use the result to identify the metal. copper (C=0.385 J/g.K) cadmium (C=0.231 J/g-K) lead (C=0.127 J/g•K) zinc (C=0.389 J/g•K) aluminum (C=0.903 J/g-K) silver (C=0.235 J/g.K) iridium (C=0.131 J/g-K) platinum (C=0.134 J/g-K) nickel (C=0.448 J/g-K) beryllium (C=1.82 J/g-K)

A 48.4-g sample of an unknown metal at 100.0 °C is placed in a constant-pressure calorimeter containing 41.0 g of water at 25.47 °C. Assume that the heat capacity of the calorimeter equals the heat capacity of the water it contains. The final temperature is 28.11 °C. Calculate the heat capacity of the metal and use the result to identify the metal. copper (C=0.385 J/g.K) cadmium (C=0.231 J/g-K) lead (C=0.127 J/g•K) zinc (C=0.389 J/g•K) aluminum (C=0.903 J/g-K) silver (C=0.235 J/g.K) iridium (C=0.131 J/g-K) platinum (C=0.134 J/g-K) nickel (C=0.448 J/g-K) beryllium (C=1.82 J/g-K)

Chemistry: An Atoms First Approach

2nd Edition

ISBN:9781305079243

Author:Steven S. Zumdahl, Susan A. Zumdahl

Publisher:Steven S. Zumdahl, Susan A. Zumdahl

Chapter7: Chemical Energy

Section: Chapter Questions

Problem 109AE: A sample of nickel is heated to 99.8C and placed in a coffee-cup calorimeter containing 150.0 g...

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