An ideal gas at pressure of 650.5 kPa and volume of 3.00x10-3 m3 expands reversibly to a final volume of 9.00x103 m³ and the final pressure of 101.3kPa. The pressure as a function of the volume during this expansion is given by: p(V) = B(V – 9.00x10-3)2 + 1.013x105 p is in pascals, V is in m3 and (beta) is a constant a) What is the value and units of the constant that appears in the function? b) Determine work done by gas while it expands in joules
An ideal gas at pressure of 650.5 kPa and volume of 3.00x10-3 m3 expands reversibly to a final volume of 9.00x103 m³ and the final pressure of 101.3kPa. The pressure as a function of the volume during this expansion is given by: p(V) = B(V – 9.00x10-3)2 + 1.013x105 p is in pascals, V is in m3 and (beta) is a constant a) What is the value and units of the constant that appears in the function? b) Determine work done by gas while it expands in joules
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Transcribed Image Text:An ideal gas at pressure of 650.5 kPa and volume of
3.00x103 m3 expands reversibly to a final volume of
m³ and the final pressure of 101.3kPa. The
pressure as a function of the volume during this
expansion is given by:
p(V) = B(V – 9.00x10-3)² + 1.013.x10
p is in pascals, V is in m3 and (beta) is a constant
a) What is the value and units of the constant that
appears in the function?
b) Determine work done by gas while it expands in
joules
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