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The Arrhenius Equation Video Lecture | Chemistry for ACT

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FAQs on The Arrhenius Equation Video Lecture - Chemistry for ACT

1. What is the Arrhenius Equation?
The Arrhenius Equation is a mathematical formula that relates the rate of a chemical reaction to the temperature at which it occurs. It was developed by Swedish chemist Svante Arrhenius in the late 19th century. The equation is expressed as: k = Ae^(-Ea/RT), where k is the rate constant of the reaction, A is the pre-exponential factor, Ea is the activation energy, R is the gas constant, and T is the temperature in Kelvin.
2. How does the Arrhenius Equation explain the effect of temperature on reaction rate?
The Arrhenius Equation explains that as the temperature increases, the reaction rate also increases. This is because higher temperatures provide more thermal energy to the reactant molecules, increasing their kinetic energy. As a result, the reactant molecules collide more frequently and with greater energy, leading to a higher likelihood of successful collisions and a faster reaction rate.
3. What is the significance of the pre-exponential factor (A) in the Arrhenius Equation?
The pre-exponential factor (A) in the Arrhenius Equation represents the frequency of successful collisions between reactant molecules. It is a constant that depends on the nature of the reaction and the properties of the reactants. The value of A is typically determined experimentally and represents the rate of reaction at a specific temperature, often at a reference temperature such as 298 Kelvin.
4. How does the activation energy (Ea) affect the reaction rate according to the Arrhenius Equation?
The activation energy (Ea) in the Arrhenius Equation represents the minimum amount of energy required for a successful collision between reactant molecules to result in a reaction. A higher activation energy means that a greater amount of energy is needed for a reaction to occur. As a result, reactions with higher activation energies have lower reaction rates compared to reactions with lower activation energies. The Arrhenius Equation mathematically shows that a decrease in Ea leads to an exponential increase in the reaction rate.
5. Can the Arrhenius Equation be applied to all chemical reactions?
The Arrhenius Equation is generally applicable to chemical reactions that involve a collision between reactant molecules. However, it assumes a simple one-step reaction mechanism and does not account for complex reactions involving multiple steps or intermediate species. Additionally, the Arrhenius Equation is most accurate within a limited temperature range, as extreme temperatures can cause deviations from its predictions. Nonetheless, the Arrhenius Equation remains a valuable tool for understanding the temperature dependence of reaction rates in many chemical systems.
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