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Experiment:  Heat Transfer between Hot Water and Cold Water In the beaker, add 100 grams of water and heat it to 20°C.  In the calorimeter, add 200 grams of water and heat it to 60°C.  Record the final temperature indicated in the calorimeter. Fill the following information: mass of hot water: __________________ initial temperature of hot water: __________________ mass of cold water: __________________ initial temperature of cold water: __________________ final temperature of the mixture: __________________ Using 4.184 J g-1°C-1 as the specific heat of water, calculate the following quantities. Show complete solutions to support your answers. q of hot water: __________________ q of cold water: __________________

Experiment:  Heat Transfer between Hot Water and Cold Water In the beaker, add 100 grams of water and heat it to 20°C.  In the calorimeter, add 200 grams of water and heat it to 60°C.  Record the final temperature indicated in the calorimeter. Fill the following information: mass of hot water: __________________ initial temperature of hot water: __________________ mass of cold water: __________________ initial temperature of cold water: __________________ final temperature of the mixture: __________________ Using 4.184 J g-1°C-1 as the specific heat of water, calculate the following quantities. Show complete solutions to support your answers. q of hot water: __________________ q of cold water: __________________

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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Experiment:  Heat Transfer between Hot Water and Cold Water

In the beaker, add 100 grams of water and heat it to 20°C. 

In the calorimeter, add 200 grams of water and heat it to 60°C. 

Record the final temperature indicated in the calorimeter.

Fill the following information:

mass of hot water: __________________

initial temperature of hot water: __________________

mass of cold water: __________________

initial temperature of cold water: __________________

final temperature of the mixture: __________________

Using 4.184 J g-1°C-as the specific heat of water, calculate the following quantities. Show complete solutions to support your answers.

q of hot water: __________________

q of cold water: __________________

Chemistry Simulations : Calorimetry Overview Learning Outcomes Experiment Experiment Step 5 Now that the experiment is complete, you can opt to show/hide the graph and/or microscopic views for subsequent runs. 46.67°C Click the Replay button to run the experiment again. Hot H20 300ml Cold H;0 Time 600mL 500L 400mL 300mL 200ml 100mL Click the Reset button to 200mL start a new experiment. 100ml SOLIDS SOLUTIONS LIQUIDS SOLIDS SOLUTIONS Hot H20 Cold H20 LIQUIDS Water - H20 Water - H20 RUN EXPERIMENT X Show graph view Mass (g) 100. Mass (g) 200. X Show microscopic view Temp ("C) 20.0 Temp ("C) 60.0 Replay Reset Show specific heat (J/g°C) 4.184 Show specific heat (J/g°C) 4.184 Temp erature
Transcribed Image Text:Chemistry Simulations : Calorimetry Overview Learning Outcomes Experiment Experiment Step 5 Now that the experiment is complete, you can opt to show/hide the graph and/or microscopic views for subsequent runs. 46.67°C Click the Replay button to run the experiment again. Hot H20 300ml Cold H;0 Time 600mL 500L 400mL 300mL 200ml 100mL Click the Reset button to 200mL start a new experiment. 100ml SOLIDS SOLUTIONS LIQUIDS SOLIDS SOLUTIONS Hot H20 Cold H20 LIQUIDS Water - H20 Water - H20 RUN EXPERIMENT X Show graph view Mass (g) 100. Mass (g) 200. X Show microscopic view Temp ("C) 20.0 Temp ("C) 60.0 Replay Reset Show specific heat (J/g°C) 4.184 Show specific heat (J/g°C) 4.184 Temp erature
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