In an experiment, 24.5 g of metal was heated to 98.0°C and then quickly transferred to...
In an experiment, 24.5 g of metal was heated to 98.0°C and then quickly transferred to 150.0 g of water in a calorimeter. The initial temperature of the water was 27.0°C, and the final temperature after the addition of the metal was 32.5°C. Assume the calorimeter behaves ideally and does not absorb or release heat.
i keep getting 2.15, but the program is telling me thats wrong
Homework Answers
use:
heat released by metal = heat absorbed by solution
24.5*c*(98.0 - 32.5) = 150.0*4.184*(32.5 - 27.0)
1604.75*c = 3451.8
c = 2.15 J/goC
I think you are correct
just focus on unit. In which unit the answer being asked in
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In an experiment, 24.5 g of metal was heated to 98.0°C and then
quickly transferred to...
In an experiment, 26.0 g of metal was heated to 98.0°C and then quickly transferred to...
In an experiment, 26.0 g of metal was heated to 98.0°C and then quickly transferred to 150.0 g of water in a calorimeter. The initial temperature of the water was 26.0°C, and the final temperature after the addition of the metal was 32.5°C. Assume the calorimeter behaves ideally and does not absorb or release heat. What is the value of the specific heat capacity (in J/g•°C) of the metal?
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cu 10 Question (1 point In an experiment, 28.5g of metal was heated to 98.0°C and then quickly transferred to 150.0 g of water in a calorimeter. The initial temperature of the water was 20.0°C, and the final temperature after the addition of the metal was 32.5°C. Assume the calorimeter behaves ideally and does not absorb or release heat 3rd attempt See Periodic Table What is the value of the specificheat capacity (in J/g °C) of the metal? J/g.c <...
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