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43.5-g sample of copper at 99.7 °C is dropped into a beaker containing 155 g of water at 18.6 °C. What is the final temperature when thermal equilibrium is reached? (The specific heat capacities of liquid water and copper are 4.184 J/g · K and 0.385 J/g K, respectively.) Final temperature = °C

43.5-g sample of copper at 99.7 °C is dropped into a beaker containing 155 g of water at 18.6 °C. What is the final temperature when thermal equilibrium is reached? (The specific heat capacities of liquid water and copper are 4.184 J/g · K and 0.385 J/g K, respectively.) Final temperature = °C

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
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Study Previous Page 1 of 6 Next O Submit Qu A 43.5-g sample of copper at 99.7 °C is dropped into a beaker containing 155 g of water at 18.6 °C. What is the final temperature when thermal equilibrium is reached? (The specific heat capacities of liquid water and copper are 4.184 J/g K and 0.385 J/g K, respectively.) Final temperature = °C C8PWGO MacBook Pro F7
Transcribed Image Text:Study Previous Page 1 of 6 Next O Submit Qu A 43.5-g sample of copper at 99.7 °C is dropped into a beaker containing 155 g of water at 18.6 °C. What is the final temperature when thermal equilibrium is reached? (The specific heat capacities of liquid water and copper are 4.184 J/g K and 0.385 J/g K, respectively.) Final temperature = °C C8PWGO MacBook Pro F7
Expert Solution
Step 1

Given:

mass of copper=  m1  = 43.5g

temperature of copper = t1  = 99.7 deg C

mass of water = m2 = 155g

temperature of water = t2  = 18.6 deg C

Specific heat capacity of copper =c1 = 0.385 J/g K

Specific heat capacity of water = c2 = 4.184 J/g K

FORMULA:

  m1c1(t1-t) = m2c2(t-t2)

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