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13 Dec 2019
1. Calculate the heat lost by the hot water. 2. Calculate the heat gained by the cold water. 3. Calculate the heat gained by the calorimeter. 4. Calculate the calorimeter constant.
Data: Atmospheric Pressure- 100.87 kPa Boiling point of water at this pressure- 99.8°C Mass of empty calorimeter- 8.3676 grams Mass of calorimeter plus 40 mL of water- 48.6923 grams Mass of calorimeter after adding 50 mL of hot water- 98.0557 grams Temperature of cold water just before adding addition of hot water- 21.7°C Tmax- 61.3°C Delta Tc- 39.7°C Delta Thw- -37.5°C
(2 styrofoam cups were used for the calorimeter and there was no lid on it so it was open to the air)
1. Calculate the heat lost by the hot water.
2. Calculate the heat gained by the cold water.
3. Calculate the heat gained by the calorimeter.
4. Calculate the calorimeter constant.
Data:
Atmospheric Pressure- 100.87 kPa
Boiling point of water at this pressure- 99.8°C
Mass of empty calorimeter- 8.3676 grams
Mass of calorimeter plus 40 mL of water- 48.6923 grams
Mass of calorimeter after adding 50 mL of hot water- 98.0557 grams
Temperature of cold water just before adding addition of hot water- 21.7°C
Tmax- 61.3°C
Delta Tc- 39.7°C
Delta Thw- -37.5°C
(2 styrofoam cups were used for the calorimeter and there was no lid on it so it was open to the air)
Tod ThielLv2
17 Dec 2019