Chemical Kinetics - NEET Notes, Formula & Common Mistakes
Chemical KineticsNEET ChemistryNEET 2025Rate of ReactionReaction OrderArrhenius Equation
Chemical Kinetics - NEET Notes, Formula & Common Mistakes
Chemical Kinetics·2 min read·NEET 2026
What NEET Asks
Rate Law & Order: Questions on determining reaction order from experimental data or applying integrated rate laws are very common.
Arrhenius Equation: Direct application of the Arrhenius equation to calculate activation energy or rate constants at different temperatures is frequently tested.
Conceptual: Distinguishing order from molecularity, or understanding factors affecting reaction rate, often appears in Assertion-Reason or multiple-choice questions.
Key Points
Rate of Reaction: Defined as the change in concentration of reactants or products per unit time. Can be average or instantaneous.
Rate Law: An experimentally determined expression relating reaction rate to reactant concentrations. .
Rate = k[A]^x[B]^y
Order of Reaction: The sum of the powers of the concentration terms in the rate law (x+y). It is an experimentally determined value and can be fractional or zero.
Molecularity: The number of reacting species (atoms, ions, or molecules) that collide simultaneously in an elementary reaction. Always a whole number (1, 2, or 3).
Units of Rate Constant (k): Vary with reaction order. For an n-th order reaction, units are (mol L⁻¹)^(1-n) s⁻¹.
Arrhenius Equation: Relates the rate constant (k) to temperature (T) and activation energy (Ea).
Must-Know Formula / Reaction
Arrhenius Equation:k = A * e^(-Ea/RT) or its integrated form ln(k₂/k₁) = (Ea/R) * (1/T₁ - 1/T₂)
k: Rate constant
A: Arrhenius factor (pre-exponential factor)
Ea: Activation energy (in J/mol)
R: Gas constant (8.314 J K⁻¹ mol⁻¹)
T: Absolute temperature (in Kelvin)
Common Mistakes
Students often confuse reaction order with molecularity. Remember, order is experimental, molecularity is theoretical for elementary steps, and they are not always equal.
Don't forget to use absolute temperature (Kelvin) in all Arrhenius equation calculations. Using Celsius will lead to incorrect results.
Incorrectly calculating units for the rate constant 'k' based on reaction order. Always derive or memorize for common orders (0, 1st, 2nd).
Rapid Revision
Chemical kinetics explores reaction rates and mechanisms. Focus on understanding rate laws, how to determine reaction order, and the significance of the rate constant. Master the Arrhenius equation for temperature dependence and differentiate between order and molecularity. Pay attention to units and calculations.
Frequently Asked Questions
What is the difference between order of reaction and molecularity?▾
Order of reaction is the sum of the powers of the concentration terms of the reactants in the experimentally determined rate law. Molecularity, on the other hand, is the number of reacting species (atoms, ions, or molecules) that collide simultaneously in an elementary reaction. Order can be fractional or zero, while molecularity is always a whole number (1, 2, or 3).
How does temperature affect the rate of a chemical reaction?▾
Increasing temperature generally increases the rate of a chemical reaction. This is explained by the Arrhenius equation, which shows that the rate constant (k) increases exponentially with temperature. Higher temperatures mean more molecules possess the necessary activation energy to react, leading to more effective collisions.
What is activation energy and its significance?▾
Activation energy (Ea) is the minimum amount of energy required for reactant molecules to transform into products during a collision. It represents the energy barrier that must be overcome for a reaction to occur. A lower activation energy generally leads to a faster reaction rate, as more molecules will possess sufficient energy at a given temperature.
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