Question #5012c

1 Answer
Stefan V.
Mar 11, 2017

"3400 J"3400 J

Explanation:

The first thing you need to do here is to look up the specific heat of water

c_"water" = "4.18 J g"^(-1)""^@"C"^(-1)cwater=4.18 J g1C1

http://www2.ucdsb.on.ca/tiss/stretton/database/specific_heat_capacity_table.html

Now, the specific heat of a substance tells you the amount of heat needed to increase the temperature of "1 g"1 g of said substance by 1^@"C"1C.

In this case, you can say that you need "4.18 J"4.18 J of heat in order to increase the temperature of "1 g"1 g of water by 1^@"C"1C.

Start by calculating the amount of heat needed to increase the temperature of "23 g"23 g of water by 1^@"C"1C

23 color(red)(cancel(color(black)("g"))) * "4.18 J"/(1color(red)(cancel(color(black)("g"))) * 1^@"C") = "96.14 J"""^@"C"^(-1)

This means that in order to increase the temperature of "23 g" of water by 1^@"C", you need to provide it with "96.14 J" of heat.

However, you must increase the temperature of the sample by

DeltaT = 68^@"C" - 31^@"C" = 37^@"C"

which implies that you will need to supply the sample with

37 color(red)(cancel(color(black)(""^@"C"))) * "96.14 J"/(1color(red)(cancel(color(black)(""^@"C")))) = "3357.2 J"

Rounded to two sig figs, the answer will be

color(darkgreen)(ul(color(black)("heat needed = 3400 J")))

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