A 700.0 g block ice at -20 °C is broughtinto thermal contact with 30.0 g ofwater at 0 °C in an adiabatic containerunder constant pressure. Calculate theentropy change of the universe (blockof ice and water) after thermalequilibrium is established.Select one:O a.O b.ASASO c.= 117.3 J/KAS =112.31 J/K39.58 J/KAS =O d. AS = 0 J/K

Since the system is adiabatic (no heat exchange with the surroundings) and at constant pressure, the…

Answered: A 700.0 g block ice at -20 °C is…

A 700.0 g block ice at -20 °C is brought into thermal contact with 30.0 g of water at 0 °C in an adiabatic container under constant pressure. Calculate the

University Physics Volume 2

18th Edition

ISBN:9781938168161

Author:OpenStax

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Chapter2: The Kinetic Theory Of Gases

Section: Chapter Questions

Problem 92AP: Unreasonable results. (a) Find the temperature of 0.360 kg of water, modeled as an ideal gas, at a...

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Question

A 700.0 g block ice at -20 °C is brought
into thermal contact with 30.0 g of
water at 0 °C in an adiabatic container
under constant pressure. Calculate the
entropy change of the universe (block
of ice and water) after thermal
equilibrium is established.
Select one:
O a.
O b.
AS
AS
O c.
= 117.3 J/K
AS =
112.31 J/K
39.58 J/K
AS =
O d. AS = 0 J/K

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