Thus we start with the basic properties of matter which allows us then to discuss thermodynamics Thermodynamics leads naturall into equilibria, solutions and then kinetics 4上一内容下一内容◇回主目录 返回
上一内容 下一内容 回主目录 返回 Thus we start with the basic properties of matter which allows us then to discuss thermodynamics. Thermodynamics leads naturally into equilibria, solutions and then kinetics
Contents 1. States of matter 2. thermodynamics 3. Equilibria 4. Solutions 5. Kinetics 6. Electrochemistry 7. Thermodynamics of interface layer 4上一内容下一内容◇回主目录 返回
上一内容 下一内容 回主目录 返回 Contents 1. States of matter 2. Thermodynamics 3. Equilibria 4. Solutions 5. Kinetics 6. Electrochemistry 7. Thermodynamics of interface layer
Others important chapters For students of applied chemistry 1. Colloid dispersed system 2. Statistical thermodynamics 4上一内容下一内容◇回主目录 返回
上一内容 下一内容 回主目录 返回 Others important chapters For students of applied chemistry 1. Colloid dispersed system 2. Statistical thermodynamics
The properties of gases Equations of state: the perfect gas The physical properties of a perfect gas are completely described by the amount of substance of which it is comprised, its temperature, its pressure and theⅴ olume which it occupies 4上一内容下一内容令回主目录 返回
上一内容 下一内容 回主目录 返回 The properties of gases Equations of state: the perfect gas The physical properties of a perfect gas are completely described by the amount of substance of which it is comprised, its temperature, its pressure and the volume which it occupies
These four parameters(n, PV,T are not independent, and the relations between them are expressed in the gas laws The three historical gas laws- Boyle's law Charles' law and Avogadro's principle-are specific cases of the perfect gas equation of state, which is usually quoted in the form PV=nRt, where r is the gas constant 4上一内容下一内容令回主目录 返回
上一内容 下一内容 回主目录 返回 These four parameters (n,P,V,T) are not independent, and the relations between them are expressed in the gas laws. The three historical gas laws – Boyle’s law, Charles’ law and Avogadro’s principle – are specific cases of the perfect gas equation of state, which is usually quoted in the form PV = nRT, where R is the gas constant