Takeyama Naokata | Department Of Applied Chemistry Faculty Of Science And Engineering Saga University
スポンサーリンク
概要
関連著者
-
Takeyama Naokata
Department Of Applied Chemistry Faculty Of Science And Engineering Saga University
-
Nakashima Kimie
Department Of Applied Chemistry Faculty Of Science And Engineering Saga University
-
TAKEYAMA Naokata
Department of Industrial Chemistry,Faculty of Science and Engineering,Saga University
-
Takeyama N
Saga Univ. Saga
-
Oo Mya
Department Of Industrial Chemistry Faculty Of Science And Engineering Saga University
-
NAKASHMA Kimie
Department of Industrial Chemistry,Faculty of Science and Engineering,Saga University
-
Takeyama Naokata
Department Of Industrial Chemistry Faculty Of Science And Engineering Saga University
-
NAKASHIMA Kimie
Department of Applied Chemistry,Faculty of Science and Engineering,Saga University
-
Nakashima K
Saga Univ. Saga
-
Nakashima Kimie
Department Of Industrial Chemistry Faculty Of Science And Engineering Saga University
-
TAKEYAMA Naokata
Department of Applied Chemistry,Faculty of Science and Engineering,Saga University
-
Nakashima Kimie
Department of Industrial Chemistry,Faculty of Science and Engineering,Saga University
-
Takeyama Naokata
Department of Industrial Chemistry, Faculty of Science and Engineering, Saga University
著作論文
- Relationship among Entropies,Volumes and Internal Pressures of Liquid Water and Aqueous Prototropic Ions
- Reformulation of Thermomolecular Pressure Effect toward Thermal Diffusion
- Steady-State Thermodynamics of Thermal Diffusion with Micelle Formation of Aqueous Ionic Surfactants
- Steady-State Thermodynamics for Crossed Transport Phenomena of Heat and Matter
- Steady-State Thermodynamics and Thermopower of Metals
- Thermodynamic Background of the Limiting Law of Helfand and Kirkwood for the Ionic Heat of Transport
- Thermal Diffusion in a Lorentz Gas
- Thermodynamics of Thermal Diffusion in Aqueous Ionic Solutions
- The Heat of Transport of Water
- A Reduction Rule in Heats of Transfer for Aqueous 1-1 Electrolytes
- Basic Relationship for Thermal Quantities of Transport in Steady-State Thermodynamics
- Entropy and Heat of Transport in Connection with Volume for Hydrophobic Ions
- Simple Kinetic Theory of Thermal Diffusion in a Binary Hard Sphere Mixture
- Thermal diffusion of prototropic ions in water.