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Read the passage given below and answer the questions that follow : The rate law for a chemical reaction relates the reaction rate with the concentrations or partial pressures of the reactants. For a general reaction aA + bB → C with no intermediate steps in its reaction mechanism, meaning that it is an elementary reaction, the rate law is given by r = k[A]x[B]y, where [A] and [B] express the concentrations of A and B in moles per litre. Exponents x and y vary for each reaction and are determined experimentally. The value of k varies with conditions that affect reaction rate, such as temperature, pressure, surface area, etc. The sum of these exponents is known as overall reaction order. A zero order reaction has a constant rate that is independent of the concentration of the reactants. A first order reaction depends on the concentration of only one reactant. A reaction is said to be second order when the overall order is two. Once we have determined the order of the reaction, we can go back and plug in one set of our initial values and solve for k.
Observe the graph shown in figure and answer the following questions :
For a reaction R → P, half life (t1/2) is independent of the initial concentration of reactants. What is the order of the reaction ?
A first order reaction takes 24 minutes for 50% decomposition. Calculate the time required for 25% decomposition. (Given : log 4 = 0·6021, log 3 = 0·4771)
Assertion (A): Order and molecularity of a reaction are always same. Reason (R): Complex reactions involve a sequence of elementary reactions and the slowest step is rate determining.
For the reaction 2N₂O₅(g) → 4NO₂(g) + O₂(g) at 318 K calculate the rate of reaction if rate of disappearance of N₂O₅(g) is 1.4 × 10⁻³ m s⁻¹.
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