Question:
When a biochemical reaction is carried out in laboratory from outside of human body in the absence of enzyme, the rate of reaction obtained is $10^{-6}$ times, then activation energy of the reaction in the presence of enzyme is
When a biochemical reaction is carried out in laboratory from outside of human body in the absence of enzyme, the rate of reaction obtained is $10^{-6}$ times, then activation energy of the reaction in the presence of enzyme is
Updated On: Jul 20, 2024
- $\frac{6}{RT}$
- P is required
- different from $E_a$ obtained in laboratory
- cannot say any things
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The Correct Option is C
Solution and Explanation
The correct answer is C:Different from \(E_a\) obtained in laboratory
In a laboratory setting, when a biochemical reaction is conducted outside the human body without the involvement of enzymes, the reaction rate is observed to be \(10^{-6}\) times slower than the activation energy of the reaction. This differs from the activation energy obtained in the laboratory because, for a specific chemical reaction, there is a distinct difference in the activation energy when enzymes are present
compared to when they are absent. This variation in activation energy is described by the;
Arrhenius equation: \(K = Ae^{(\frac{-Ea}{RT}).}\)
It indicates that the activation energy takes on different values depending on whether enzymes are involved or not.
In a laboratory setting, when a biochemical reaction is conducted outside the human body without the involvement of enzymes, the reaction rate is observed to be \(10^{-6}\) times slower than the activation energy of the reaction. This differs from the activation energy obtained in the laboratory because, for a specific chemical reaction, there is a distinct difference in the activation energy when enzymes are present
compared to when they are absent. This variation in activation energy is described by the;
Arrhenius equation: \(K = Ae^{(\frac{-Ea}{RT}).}\)
It indicates that the activation energy takes on different values depending on whether enzymes are involved or not.
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Concepts Used:
Chemical Kinetics
Chemical kinetics is the description of the rate of a chemical reaction. This is the rate at which the reactants are transformed into products. This may take place by abiotic or by biological systems, such as microbial metabolism.
Rate of a Chemical Reaction:
The speed of a reaction or the rate of a reaction can be defined as the change in concentration of a reactant or product in unit time. To be more specific, it can be expressed in terms of: (i) the rate of decrease in the concentration of any one of the reactants, or (ii) the rate of increase in concentration of any one of the products. Consider a hypothetical reaction, assuming that the volume of the system remains constant. R → P
Read More: Chemical Kinetics MCQ
Factors Affecting The Reaction Rate:
- The concentration of Reactants - According to collision theory, which is discussed later, reactant molecules collide with each other to form products.
- Nature of the Reactants - The reaction rate also depends on the types of substances that are reacting.
- Physical State of Reactants - The physical state of a reactant whether it is solid, liquid, or gas can greatly affect the rate of change.
- Surface Area of Reactants - When two or more reactants are in the same phase of fluid, their particles collide more often than when either or both are in the solid phase or when they are in a heterogeneous mixture. In a heterogeneous medium, the collision between the particles occurs at an interface between phases. Compared to the homogeneous case, the number of collisions between reactants per unit time is significantly reduced, and so is the reaction rate.
- Temperature - If the temperature is increased, the number of collisions between reactant molecules per second. Increases, thereby increasing the rate of the reaction.
- Effect Of Solvent - The nature of the solvent also depends on the reaction rate of the solute particles.
- Catalyst - Catalysts alter the rate of the reaction by changing the reaction mechanism.