(10 blanks) If the gravitational potential energy of the water is equal to the increase in the internal energy of the water, compute the change in its temperature (in Kelvin), if water drops from a height of 50 m. Assume no work is done on/by the water (C = 4184 J/kg Sol. Using the first law of thermodynamics: AU=Q- Since Then A U=Q But, by virtue of the problem, the internal energy is equal to AU- While AT Then AT AT- K (2 decimal place)
(10 blanks) If the gravitational potential energy of the water is equal to the increase in the internal energy of the water, compute the change in its temperature (in Kelvin), if water drops from a height of 50 m. Assume no work is done on/by the water (C = 4184 J/kg Sol. Using the first law of thermodynamics: AU=Q- Since Then A U=Q But, by virtue of the problem, the internal energy is equal to AU- While AT Then AT AT- K (2 decimal place)
College Physics
10th Edition
ISBN:9781285737027
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter10: Thermal Physics
Section: Chapter Questions
Problem 9WUE: Suppose 26.0 g of neon gas are stored in a tank at a temperature of 152C. (a) What is the...
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![(10 blanks) If the gravitational potential energy of the water is equal to the increase in the internal energy of the water, compute the change in its temperature (in Kelvin), if water drops from a height of 50 m. Assume no work is done on/by the water (C = 4184 J/kg K)
Sl.
Using the first law of thermodynamics:
AU=Q-
Since
W =
Then
A U=Q
But, by virtue of the problem, the internal energy is equal to
AU =
While
Q =
AT
Then
ΔΤ
AT =
K (2 decimal place)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd916395c-f16c-4cb3-bda7-814526af0cbe%2Ffb41f696-1ef1-4446-91ad-53d90589d936%2Fpap21su_processed.png&w=3840&q=75)
Transcribed Image Text:(10 blanks) If the gravitational potential energy of the water is equal to the increase in the internal energy of the water, compute the change in its temperature (in Kelvin), if water drops from a height of 50 m. Assume no work is done on/by the water (C = 4184 J/kg K)
Sl.
Using the first law of thermodynamics:
AU=Q-
Since
W =
Then
A U=Q
But, by virtue of the problem, the internal energy is equal to
AU =
While
Q =
AT
Then
ΔΤ
AT =
K (2 decimal place)
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