Activation Energy Calculator Notice that when the Arrhenius equation is rearranged as above it is a linear equation with the form y = mx + b; y is ln (k), x is 1/T, and m is -E a /R. Advanced Physical Chemistry (A Level only), 1.1.7 Ionisation Energy: Trends & Evidence, 1.2.1 Relative Atomic Mass & Relative Molecular Mass, 1.3 The Mole, Avogadro & The Ideal Gas Equation, 1.5.4 Effects of Forces Between Molecules, 1.7.4 Effect of Temperature on Reaction Rate, 1.8 Chemical Equilibria, Le Chatelier's Principle & Kc, 1.8.4 Calculations Involving the Equilibrium Constant, 1.8.5 Changes Which Affect the Equilibrium, 1.9 Oxidation, Reduction & Redox Equations, 2.1.2 Trends of Period 3 Elements: Atomic Radius, 2.1.3 Trends of Period 3 Elements: First Ionisation Energy, 2.1.4 Trends of Period 3 Elements: Melting Point, 2.2.1 Trends in Group 2: The Alkaline Earth Metals, 2.2.2 Solubility of Group 2 Compounds: Hydroxides & Sulfates, 3.2.1 Fractional Distillation of Crude Oil, 3.2.2 Modification of Alkanes by Cracking, 3.6.1 Identification of Functional Groups by Test-Tube Reactions, 3.7.1 Fundamentals of Reaction Mechanisms, 4.1.2 Performing a Titration & Volumetric Analysis, 4.1.4 Factors Affecting the Rate of a Reaction, 4.2 Organic & Inorganic Chemistry Practicals, 4.2.3 Distillation of a Product from a Reaction, 4.2.4 Testing for Organic Functional Groups, 5.3 Equilibrium constant (Kp) for Homogeneous Systems (A Level only), 5.4 Electrode Potentials & Electrochemical Cells (A Level only), 5.5 Fundamentals of Acids & Bases (A Level only), 5.6 Further Acids & Bases Calculations (A Level only), 6. Exergonic and endergonic refer to energy in general. "How to Calculate Activation Energy." We can graphically determine the activation energy by manipulating the Arrhenius equation to put it into the form of a straight line. Ea = 8.31451 J/(mol x K) x (-0.001725835189309576) / ln(0.02). This equation is called the Arrhenius Equation: Where Z (or A in modern times) is a constant related to the geometry needed, k is the rate constant, R is the gas constant (8.314 J/mol-K), T is the temperature in Kelvin. Once the reaction has obtained this amount of energy, it must continue on.
how to calculate activation energy from a graph