Chemical Kinetics
By Levi Clancy for Student Reader on
updated
- Laboratory Methods
- Acids and Bases
- Antibody techniques
- Caenorhabditis elegans
- Cell Culture
- Chemical Kinetics
- Common Laboratory Microbes
- Competition Assay
- Drosophila melanogaster
- Experimental Design by the Scientific Method
- Focus Assay
- Genetic techniques
- Measurement
- Models & Representations
- Mouse Models
- Pathology techniques
- Protein analysis
- Visual Assays
ΔG = -n ℱ ΔE = - R T ln K'eq = - R T ln { [products] / [reactants] }
| ΔG | |
|---|---|
| ℱ | Equivalent to 96.5 kJ V-1 mol-1 |
| ΔE | Difference between two half reactions. |
E = E° + (RT/nℱ) ln { [products, electron acceptors] / [reactants, electron donors] }
| R | .0083 |
|---|---|
| T | 298 K usually. For this value, then RT/ℱ is equal to .026 V. |
| E | Electrode potential. |
| E° | Equilibrium coefficient for the reaction. |