TY  - BOOK
AU  - Ganguly, Jibamitra 
TI  - Thermodynamics in earth and planetary sciences
T2  - Springer textbooks in earth sciences, geography and environment
SN  - 9783030208813
U1  - 55 
PY  - 2020///
CY  - Switzerland
PB  - Springer
KW  - GEOCHEMISTRY
KW  - THERMAL ANALYSIS IN EARTH SCIENCES
KW  - PLANETS--GEOLOGY
KW  - THERMODYANMICS
N1  - Table of contents

•	Introduction
•	First and Second Laws
•	Thermodynamic Potentials and Derivative Properties
•	Third Law and Thermochemistry
•	Critical Phenomenon and Equations of States
•	Phase Transitions, Melting, and Reactions of Stoichiometric Phases
•	Thermal Pressure, Earth’s Interior and Adiabatic Processes
•	Thermodynamics of Solutions
•	Thermodynamic Solution and Mixing Models: Non-electrolytes
•	Equilibria Involving Solutions and Gaseous Mixtures
•	Element Fractionation in Geological Systems
•	Electrolyte Solutions and Electrochemistry
•	Surface Effects
•       Statistical Thermodynamics Primer

N2  - This book presents the fundamental principles of Classical thermodynamics, supplemented by  an overview of Statistical Thermodynamics, and explores their applications to a wide variety of problems in the Earth and Planetary sciences, spanning the range from the Earth’s core, mantle and crust, aqueous solutions and fluid-rock interactions to solar nebula, terrestrial planets and asteroids. The topics covered include the laws of classical thermodynamics, microscopic foundations of thermodynamic properties, critical phenomena and near-critical processes, equations of state, phase transitions and phase equilibria, the Earth’s interior and adiabatic processes, terrestrial magma ocean, thermodynamics of solutions, element and stable isotope fractionations, electrolyte solutions and electrochemistry, osmotic processes, surface effects, entropy production and kinetic implications, thermodynamics of chemical diffusion, estimation of thermochemical properties, and mathematical methods of classical thermodynamics. There is also a wealth of solved problems relating to both fundamental concepts and applications to natural processes.
ER  -