A chamber with a piston contains 1.15 kg of air at 23.0°C and 1.45 x 105 Pa. Energy is transferred by heat into the system as it expands and the pressure rises to 4.45 x 105 Pa. Throughout the expansion, the relationship between pressure and volume is given by P = CV(1/2) where C is a constant. Air may be modeled as a diatomic ideal gas with a molar mass of M= 28.9 g/mol. Determine the following. (a) initial volume (in m³) m³ (b) final volume (in m³) m²
A chamber with a piston contains 1.15 kg of air at 23.0°C and 1.45 x 105 Pa. Energy is transferred by heat into the system as it expands and the pressure rises to 4.45 x 105 Pa. Throughout the expansion, the relationship between pressure and volume is given by P = CV(1/2) where C is a constant. Air may be modeled as a diatomic ideal gas with a molar mass of M= 28.9 g/mol. Determine the following. (a) initial volume (in m³) m³ (b) final volume (in m³) m²
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Transcribed Image Text:A chamber with a piston contains 1.15 kg of air at 23.0°C and 1.45 x 105 Pa. Energy is transferred by heat into the system as it expands and the pressure rises
to 4.45 x 105 Pa. Throughout the expansion, the relationship between pressure and volume is given by P = CV(1/2) where C is a constant. Air may be modeled as
a diatomic ideal gas with a molar mass of M= 28.9 g/mol. Determine the following.
(a) initial volume (in m³)
m³
(b) final volume (in m³)
m²
(c) final temperature (in K)
K
(d) work done on the air (in 3)
(e) energy transferred by heat (Enter the magnitude in MJ.)
MJ
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