| 26 | Half-cell reduction potential at room temperature (Nernst equation) | -432s.png) |
| 27 | Equilibrium constant of a redox reaction (given the standard electrode potential) | -434s.png) |
| 28 | Equilibrium constant of a redox reaction at room temperature (Given the standard electrode potential) | -435s.png) |
| 29 | Equilibrium potential across a cell's membrane (the Goldman-GHK equation) | -436s.png) |
| 30 | Temperature of tnterest (Given vapor pressure and molar enthalpy of vaporization) (The Clausius-Clapeyron equation) | -(The-Clausius-Clapeyron-equation)-439s.png) |
| 31 | Enthalpy of the system (Given internal energy,pressure and volume) | -507s.png) |
| 32 | Vapor pressure (Given temperature,pressure, enthalpy of vaporization) | -440s.png) |
| 33 | Temperature of interest (Given equilibrium constant and enthalpy change)(The Van 't Hoff equation) | (The-Van-t-Hoff-equation)-441s.png) |
| 34 | Equilibrium constant (Given temperature and enthalpy change, Van 't Hoff equation) | -442s.png) |
| 35 | Reaction rate constant (By the Arrhenius equation) | -472s.png) |
| 36 | Activation energy (by the Arrhenius equation) | -473s.png) |
| 37 | Number concentrations of the solute gas in the melt phases (Henry's law in geophysics) | -488s.png) |
| 38 | Number concentrations of the solute gas in the melt phases (Henry's law in geophysics) | -489s.png) |
| 39 | Height of a liquid column (Capillary action) | -490s.png) |
| 40 | Cumulative volume of absorbed liquid (Liquid transport in porous media) | -491s.png) |
| 41 | Cumulative infiltration (Liquid transport in porous media) | -492s.png) |
| 42 | Wetted length (given Liquid transport in porous media, cumulative liquid intake) | -493s.png) |
| 43 | Wetted length (given liquid transport in porous media, sorptivity, porosity ) | -494s.png) |
| 44 | Liquid-air surface tension (Capillary action) | -495s.png) |
| 45 | Density of liquid (given liquid-air surface tension,capillary action) | -496s.png) |
| 46 | Radius of tube (given liquid-air surface tension,density,height of liquid column, Capillary action) | -497s.png) |
| 47 | Volume of the pores (Measuring porosity by gas expansion method) | -498s.png) |
| 48 | Porosity (Measuring by gas expansion method) | -499s.png) |
| 49 | Specific heat at constant pressure (Mayer\'s Relation) | -500s.png) |
| 50 | Specific heat at constant volume (Mayer's Relation) | -501s.png) |
