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200 00$aVia recta ad vitam longam, or A plaine philosophical discourse of the nature, faculties, and effects, of all such things, as by way of nourishments, and dieteticall obseruations, make for the preseruation of health$b[electronic resource] $ewith their iust applications vnto euery age, constitution of bodie, and time of yeare. Wherein also, by way of introduction, the nature and choice of habitable places, with the true vse of our famous bathes of Bathe is perspicuously demonstrated. By To: Venner, Doctor of Physicke, at Bathe in the spring, and fall, and at other times in the burrough of North-Petherton neere to the ancient hauen-towne of Bridgewater in Somerset-shire
210   $aLondon $cPrinted by Edward Griffin for Richard Moore, and are to be sold at his shop in St Dunstans church-yard in Fleet-street$d1620
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607   $aBath (England)$xDescription and travel$vEarly works to 1800
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200 10$aCritical states at phase transitions of pure substances /$fBeycan I?brahimog?lu, Beycan Jr. I?brahimog?lu
210  1$aCham, Switzerland :$cSpringer,$d[2022]
210  4$d©2022
215   $a1 online resource (198 pages)
311 08$aPrint version: ?brahimo?lu, Beycan Critical States at Phase Transitions of Pure Substances Cham : Springer International Publishing AG,c2022 9783031099656 
320   $aIncludes bibliographical references.
327   $aIntro -- Foreword -- Preface -- Acknowledgements -- Note -- Contents -- Abbreviations -- 1 Phase Diagrams -- 1.1 Introduction -- 1.2 Phase Diagram of One-Component Systems -- 1.3 Definitions -- 1.4 Solid-Liquid Equilibrium Curve -- 1.5 Liquid-Solid Phase Diagrams at High Pressures -- References -- 2 Experimental Studies -- 2.1 Experimental Setup -- 2.2 Experimental Studies -- 2.3 Theoretical Evaluation of Experimental Results -- 2.4 Performed Measurements -- 2.5 Experimental Method -- References -- 3 Metastable State -- 3.1 Metastable State and Its Classification -- 3.2 Experimental Determination of Metastable State and Its Existence Time -- 3.3 Experimental Studies on the Investigation of the Metastable State at High Pressures and Temperatures -- 3.4 Effect of Pressure on the Freezing of Benzene -- 3.5 Superdiscontinuous Metastable State -- References -- 4 Material Selection -- 4.1 Benzene -- 4.2 The Effect of High Pressure and Low Temperature on Liquid-Solid Transition of Benzene -- 4.3 Evaluation of the Experimental Results -- References -- 5 Pressure Change of the Metastable State of Benzene -- 5.1 Experimental Studies and Results -- 5.2 Interpretation of Experimental Results -- References -- 6 Analysis of the Phase Behavior of Benzene in a Wide Range of Temperature and Pressure Variations -- 6.1 Introduction -- 6.2 Critical Point of Liquid-Solid Transition for Benzene -- 6.2.1 Introduction -- 6.2.2 Material and Method -- 6.3 Results and Discussion -- 6.3.1 ?p-?T Relation -- 6.3.2 Critical Pressure of Liquid-solid Transition -- 6.3.3 Temperature of Liquid-solid Transition -- 6.3.4 Proposed Benzene Liquid-Solid Equilibrium Curve -- 6.4 Conclusion -- 6.5 PVT Studies of Benzene -- 6.6 State Diagrams of Benzene -- 6.7 Conclusion -- References -- 7 Axiogeometry -- 7.1 Geometric Studies -- 7.2 Basic Knowledge -- 7.3 Absolute Temperature.
327   $a7.4 Determination of an Arbitrary Temperature in Celsius Corresponding to Absolute Zero -- References -- 8 Equations of State -- 8.1 Ideal Gas Equation -- 8.2 Van Der Waals Equation -- 8.3 Thermal Decomposition Temperature -- 8.4 Temperature Measurement and Gas Thermometer -- 9 Hydrogen Gas -- 9.1 Introduction -- 9.2 Graphical Determination of the Properties of Hydrogen Gas -- 9.3 Ionization of Hydrogen Gas -- 9.4 Application of Grapho-Analytical Method to the Liquid Phase of Hydrogen -- 9.5 Formation of Hydrogen-Related Supercritical Fluid -- 9.6 Phase Diagrams -- 9.7 Density-Temperature (?-T) Phase Diagram at Low Pressure and Low Temperatures -- 9.8 Density-Pressure (?-p) Phase Diagram at Low Pressures and Temperatures -- 9.9 Density-Pressure (?-p) Phase Diagram at Low Pressure and High Temperatures -- 9.10 Hydrogen Density-Temperature (?-T) Diagram -- 9.11 Pressure-Temperature (p-T) Phase Diagrams -- 9.12 p-T Phase Diagram Arranged by Simulating Hydrogen Atom Model with Hydrogen Nucleus -- 9.13 Formation of Supercritical Fluid -- 9.14 Discussion -- 9.15 Results -- References -- 10 Phase Diagram of Carbon Dioxide -- 10.1 Introduction -- 10.2 Method -- 10.3 Results and Discussion -- 10.4 Determination of Absolute Zero Temperature -- 10.5 Determination of Critical Pressure Related to Liquid-Solid Equilibrium Line -- 10.6 Stable Phases that Can Come to Equilibrium with Each Other -- 10.7 Supercritical Phases -- 10.8 Phase Diagram of Supercritical Fluid -- 10.9 Results -- References -- 11 Application of the Graphical Method to the Liquid Phase -- 11.1 Critical Facts -- 11.2 Critical State -- 11.3 Determination of the Boundary Range of the Liquid Phase -- 11.4 Experimental Determination of the Critical Pressure and the Critical Density -- 11.4.1 Introduction -- 11.4.2 Experimental Technique -- 11.4.3 Experimental Results.
327   $a11.4.4 Discussions and Results -- 11.5 Determination of Critical Pressure (pcr) by Graphical Method -- References -- 12 Desublimation Equilibrium Curve -- 12.1 Introduction -- 12.2 Graphical Method and Experimental Studies -- 12.3 Results and Discussion -- 12.4 Conclusion -- References -- 13 Position of Plasma at Phase Diagrams -- 13.1 Introduction -- 13.2 Experimental Studies -- 13.3 Plasma is a Clean, ?nexhaustible Source of Energy -- 13.4 Geometric Thermodynamics -- 13.5 Thermodynamic Surfaces of One-Component Compounds -- 13.6 Formation of the Phase Diagrams -- 13.7 Atomic Model of Phase Diagram -- 13.8 Results -- References -- 14 Developments in Phase Diagram and Phase Transitions.
606   $aGases$xLiquefaction
606   $aLiquid air	
615  0$aGases$xLiquefaction.
615  0$aLiquid air	.
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