Please complete the work in the pictures Aninsulated container of negligible mass holds 0.800 kgof water at 45.0° C. You put a 0.0800 kg ice cube at-15.0°C in the water (Figure 1). (a) Calculate the finaltemperature of the water once the ice has melted. (b)Calculate the change in entropy of the system.FigureInsulated containerIce at-15.0°CLiquid water at 45.0°C< 1 of 1Final state:all liquid waterliquid water+ ice?al temperature of the mixture, how will you determine the changes in entropy of the ice initially ater initially at 45.0°C?the left column to the appropriate blanks in the sentences on the right.nt(s)rentiateof the icek donep of the watertemperaturere differenceeategrateThe change in entropy depends on the amount ofprocess in which temperature changes we muststates.is an example of such process.Reset Helpdivided by. For athis relation between the initial and finalFor a process in which temperature is constant we can just use total amount ofis an example of such process.bydivided An insulated container of negligible mass holds 0.800 kgof water at 45.0° C. You put a 0.0800 kg ice cube at-15.0°C in the water (Figure 1). (a) Calculate the finaltemperature of the water once the ice has melted. (b)Calculate the change in entropy of the system.figureInsulated containerIce at-15.0°CLiquid water at 45.0°C1 of 1Final state:all liquid waterliquid water+ ice?Once you find the final temperature of the mixture, how will you determine the changes in entropy of the ice initially at-15.0° C and the water initially at 45.0°C?Match the words in the left column to the appropriate blanks in the sentences on the right.▸ View Available Hint(s)differentiateMelting of the icework doneWarming up of the waterabsolute temperaturetemperature differenceheatintegrateThe change in entropy depends on the amount ofprocess in which temperature changes we muststates.is an example of such process.divided bythis relation betweenFor a process in which temperature is constant we can just use total amount ofis an example of such process.by

An insulated container of negligible mass holds 0.800 kg of water at 45.0° C. You put a 0.0800 kg ice cube at -15.0°C in the water (Figure 1). (a) Calculate the final temperature of the water once the ice has melted. (b) Calculate the change in entropy of the system.

An insulated container of negligible mass holds 0.800 kg of water at 45.0° C. You put a 0.0800 kg ice cube at -15.0°C in the water (Figure 1). (a) Calculate the final temperature of the water once the ice has melted. (b) Calculate the change in entropy of the system.

University Physics Volume 2

18th Edition

ISBN:9781938168161

Author:OpenStax

Publisher:OpenStax

Chapter3: The First Law Of Thermodynamics

Section: Chapter Questions

Problem 55P: Consider a transformation from point A to B in a two-step process. First, the pressure is lowered...

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Question

Please complete the work in the pictures

An
insulated container of negligible mass holds 0.800 kg
of water at 45.0° C. You put a 0.0800 kg ice cube at
-15.0°C in the water (Figure 1). (a) Calculate the final
temperature of the water once the ice has melted. (b)
Calculate the change in entropy of the system.
Figure
Insulated container
Ice at-15.0°C
Liquid water at 45.0°C
< 1 of 1
Final state:
all liquid water
liquid water+ ice?
al temperature of the mixture, how will you determine the changes in entropy of the ice initially at
er initially at 45.0°C?
the left column to the appropriate blanks in the sentences on the right.
nt(s)
rentiate
of the ice
k done
p of the water
temperature
re difference
eat
egrate
The change in entropy depends on the amount of
process in which temperature changes we must
states.
is an example of such process.
Reset Help
divided by
. For a
this relation between the initial and final
For a process in which temperature is constant we can just use total amount of
is an example of such process.
by
divided

Expert Solution

Step 1

Given that:

$Mass of water, m_{w} = 0.800 kg Initial temperature of water, T_{w} = 45.0 ° C Mass of ice, m_{i} = 0.0800 kg Initial temperature of ice, T_{i} = - 15.0 ° C$

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