Help review for exam (last question)

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The discussion revolves around Joule's paddle wheel experiment, where a falling weight spins a paddle in an insulated barrel of water, causing the water's temperature to rise. The participants are trying to calculate the temperature change of 0.4 kg of water when a 100 kg weight falls 1 meter, with the correct answer being 0.58 degrees Celsius. They discuss the energy delivered by the falling weight and the heat energy required to raise the water's temperature, referencing the specific heat capacity of water as 4.2 J/g/K. There is confusion regarding the calculations, particularly about the negative values encountered when determining energy changes. The thread highlights the importance of understanding temperature change in both Celsius and Kelvin, noting that their differences are consistent for temperature changes.
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Problem 7: Joule’s paddle wheel experiment consists of a falling weight which spins a
paddle-wheel in an insulated barrel of water. As the weight falls, the water warms up.
Assume idealized conditions with no friction in the pulley, string, and bearings. How
much does the temperature of the water change? Assume there is 0.4 kg of water, the
weight has m=100 kg and it falls 1 m. The specific heat capacity of water is 4.2 J/g/K.

here is a website to a pic of what a Joule's paddle wheel experment looks like.
has something to do with the energy from the weight moving the 1 m. this turns paddle making thermal energy but don't know how to find this or how it is related

http://upload.wikimedia.org/wikipedia/commons/c/c3/Joule's_Apparatus_(Harper's_Scan).png

A. 0.19 degrees
B. 0.29 degrees
C. 1.16 degrees
D. 0.58 degrees (correct answer)
E. – 3.6 degrees
 
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Can you determine how much energy (in Joules) the weight delivers to the water in its fall? How much heat energy (in Joules) does it take to raise the 400 g of water 1 degree C.?

AM
 
i know how to find the energy of the weight, but not the energy it takes to heat the water 1 degree C.

only formula i know is Cm(Tf - Ti) + Cm(Tf - Ti) = 0 but this is when you have 2 items at different temps and want to find equilibrum point in C.
 
the specific heat capacity is the energy it takes to heat one g of water by 1K by definition...
 
so...
4.2 is energy it takes to heat 1 g by 1k 1k = -272.15 C so rewrtie it as
4.2 is energy it takes to heat 1 g by -272.15 C ??
then divide by -272.15 to get energy need to heat 1g by 1 C ?? i get -.0154327
i have 400 g of water so X previous by 400 to get -6.173066 J ??
why is it negative? did i mess up somewhere?
 
K & degC differ in absolute magnitude by

T(K) = T(degC) + 273.15

but for a change in temp
dT = T1-T0
then

dT(K) = dT(degC)

so the difference in a temps is the same in Kelvin or Celsius
 

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