Oxygen (molar mass 32 kg/kmol ) expands reversibly in a cylinder behind a piston at a constant pressure of 3.148 bar. The volume initially is 0.0112 m³ and finally is 0.0317 m³; the initial temperature is 17.17°C. Calculate the heat supplied during the expansion in the correct unit to two decimal places. Assume oxygen to be a perfect gas and take the specific heat at constant pressure as = 0.917 kJ7kg K and molar gas constant as = 8,314 J / kmol K.
Oxygen (molar mass 32 kg/kmol ) expands reversibly in a cylinder behind a piston at a constant pressure of 3.148 bar. The volume initially is 0.0112 m³ and finally is 0.0317 m³; the initial temperature is 17.17°C. Calculate the heat supplied during the expansion in the correct unit to two decimal places. Assume oxygen to be a perfect gas and take the specific heat at constant pressure as = 0.917 kJ7kg K and molar gas constant as = 8,314 J / kmol K.
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
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Oxygen (molar mass 32 kg/kmol ) expands reversibly in a cylinder behind a piston at a constant pressure of 3.148 bar. The volume initially is 0.0112 m? and finally is 0.0317 m3; the initial temperature is 17.17°C. Calculate the heat supplied during the expansion in the correct unit to two decimal places. Assume oxygen to be a perfect gas and take the specific heat at constant pressure as=0.917kJ/k g K'and molar gas constant as = 8,314 ] / kmol K.
Transcribed Image Text:Oxygen (molar mass 32 kg/kmol ) expands reversibly
in a cylinder behind a piston at a constant pressure
of 3.148 bar. The volume initially is 0.0112 m³ and
finally is 0.0317 m³; the initial temperature is
17.17°C. Calculate the heat supplied during the
expansion in the correct unit to two decimal places.
Assume oxygen to be a perfect gas and take the
specific heat at constant pressure as = 0.917 kJ7kg
K and molar gas constant as = 8,314 J / kmol K.
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