$\definecolor{red}{RGB}{255,0,0}$$\definecolor{black}{RGB}{0,0,0}$
  1. $E_a$
  2. $E_a$
  3. $E_a$
    • $$\color{blue}{\rightarrow}\color{black}\;E_a \;= \;R\cdot T\cdot ln (\frac{A}{k})$$
  1. $T$
  2. $T$
  3. $T$
    • $$\color{blue}{\rightarrow}\color{black}\;T\;= \;\frac{E_a}{R\cdot ln (\frac{A}{k})}$$
  1. $A$
  2. $A$
  3. $A$
    • $$\color{blue}{\rightarrow}\color{black}\;A \;= \;k\cdot e^{\frac{E_a}{R\cdot T}}$$
  1. $k$
  2. $k$
  3. $k$
    • $$\color{blue}{\rightarrow}\color{black}\;k \;= \;A\cdot e^{\frac{E_a}{R\cdot T}}$$
: Chemical kinetics: Rate constant of the chemical reaction and temperature, Arrhenius law

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