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This Concept Map, created with IHMC CmapTools, has information related to: Cmap for General Transformation Law, all state parameters 3 measurable physical quantities Temperature, thermodynamic system representing any macroscopic body or well-defined set of macroscopic bodies, thermodynamic processes namely transitions from an initial state to a final state, thermodynamic processes where varies all state parameters, all state parameters in relation <math xmlns="http://www.w3.org/1998/Math/MathML"> <mrow> <mfrac> <mtext> p·V </mtext> <mtext> T </mtext> </mfrac> <mtext> = constant </mtext> </mrow> </math>, <math xmlns="http://www.w3.org/1998/Math/MathML"> <mrow> <mfrac> <mtext> p·V </mtext> <mtext> T </mtext> </mfrac> <mtext> = constant </mtext> </mrow> </math> namely general transformation equation, all state parameters 3 measurable physical quantities Pressure, Temperature characterizing properties of the thermodynamic system, Pressure characterizing properties of the thermodynamic system, transitions from an initial state to a final state where varies all state parameters, thermodynamic system consists of ideal gas constant amount, ideal gas constant amount namely number of kilomoles, ν = constant, General Transformation Law mathematical expression is <math xmlns="http://www.w3.org/1998/Math/MathML"> <mrow> <mfrac> <mrow> <mmultiscripts> <mtext> p </mtext> <mtext> 1 </mtext> <none/> </mmultiscripts> <mtext> ⋅ </mtext> <mmultiscripts> <mtext> V </mtext> <mtext> 1 </mtext> <none/> </mmultiscripts> </mrow> <mmultiscripts> <mtext> T </mtext> <mtext> 1 </mtext> <none/> </mmultiscripts> </mfrac> <mtext> = </mtext> <mfrac> <mrow> <mmultiscripts> <mtext> p </mtext> <mtext> 2 </mtext> <none/> </mmultiscripts> <mtext> ⋅ </mtext> <mmultiscripts> <mtext> V </mtext> <mtext> 2 </mtext> <none/> </mmultiscripts> </mrow> <mmultiscripts> <mtext> T </mtext> <mtext> 2 </mtext> <none/> </mmultiscripts> </mfrac> <mtext> =constant </mtext> </mrow> </math>, thermodynamic system suffering thermodynamic processes, all state parameters 3 measurable physical quantities Volume, thermodynamic system suffering ideal gas constant amount, Volume characterizing properties of the thermodynamic system, thermodynamic system representing any macroscopic body or well-defined set of macroscopic bodies, General Transformation Law apply to ideal gas constant amount, General Transformation Law apply to thermodynamic system