The correct option is(D): \(0.03\, mol\, L^{-1}\, min^{-1}\).
Rate of decrease in concentration of \(A\)
\(-\left(\frac{d A}{d t}\right)=\frac{0.5-0.3}{10}=\frac{0.2}{10}=0.02\)
From the equation
\(2 A+B \longrightarrow 3 \,C\)
\(-\frac{d[A]}{2 \times d t}=-\frac{d[B]}{d t}=+\frac{d[C]}{3 \,d t}\)
Thus, the rate of production of \(C\),
\(\frac{d[c]}{d t}=\frac{3}{2} \times \frac{d[c]}{d t}\)
\(=\frac{3}{2} \times\) rate of decrease in concentration of \(A\)
\(=\frac{3}{2} \times 0.02=0.03\, mol\, L ^{-1} \,\min ^{-1}\)
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.
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
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