Once upon a time, an engineering is conducting an experiment wherein he uses 10 moles of a gas. He then places it in a constant volume vessel. At start the gas is at P = 0.5 bar and T =300 K and the container is also at T = 300 K. He decided to place it in a furnace, where its surroundings are at a constant T = 600 K. It was left overnight in the furnace until both the container and the gas inside it reach thermal equilibrium with the surroundings. He assumed an ideal gas for this experiment at the pressures attained throughout this process, and has a constant heat capacity of CV* = 2.5R. The container itself has a mass of 10 kg (not including the mass of the gas inside) and a heat capacity of CV = 1.5 J/g - K. ● Find the heat added to the gas. a. 62.4 kJ b. 46.4 kJ c. 90.4 kJ d. 87.4 kJ e. none of these Find the heat added to the container. a.588kJ b. 638 kJ c. 1457 kJ d. 3465 kJ Find the change in entropy of the gas a. 0.14 kJ/K b.0.3 kJ/K c. 0.78 kJ/K d. none of these

Once upon a time, an engineering is conducting an experiment wherein he uses 10 moles of a gas. He then places it in a constant volume vessel. At start the gas is at P = 0.5 bar and T =300 K and the container is also at T = 300 K. He decided to place it in a furnace, where its surroundings are at a constant T = 600 K. It was left overnight in the furnace until both the container and the gas inside it reach thermal equilibrium with the surroundings. He assumed an ideal gas for this experiment at the pressures attained throughout this process, and has a constant heat capacity of CV* = 2.5R. The container itself has a mass of 10 kg (not including the mass of the gas inside) and a heat capacity of CV = 1.5 J/g - K. ● Find the heat added to the gas. a. 62.4 kJ b. 46.4 kJ c. 90.4 kJ d. 87.4 kJ e. none of these Find the heat added to the container. a.588kJ b. 638 kJ c. 1457 kJ d. 3465 kJ Find the change in entropy of the gas a. 0.14 kJ/K b.0.3 kJ/K c. 0.78 kJ/K d. none of these

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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Question

Once upon a time, an engineering is conducting an experiment wherein he uses 10 moles of a
gas. He then places it in a constant volume vessel. At start the gas is at P = 0.5 bar and T =300 K
and the container is also at T = 300 K. He decided to place it in a furnace, where its surroundings
are at a constant T = 600 K. It was left overnight in the furnace until both the container and the
gas inside it reach thermal equilibrium with the surroundings. He assumed an ideal gas for this
experiment at the pressures attained throughout this process, and has a constant heat capacity
of CV* = 2.5R. The container itself has a mass of 10 kg (not including the mass of the gas inside)
and a heat capacity of CV = 1.5 J/g - K.
Find the heat added to the gas.
a. 62.4 kJ
b. 46.4 kJ
c. 90.4 kJ
d. 87.4 kJ
e. none of these
Find the heat added to the container.
a.588kJ
b. 638 kJ
c. 1457 kJ
d. 3465 kJ
Find the change in entropy of the gas
a. 0.14 kJ/K b.0.3 kJ/K
c. 0.78 kJ/K
d. none of these

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