The theoretical half-life period () of an exotic reaction is observed to become exactly times strict — Chemical Kinetics Chemistry Question
Question
The theoretical half-life period ($t_{1/2}$) of an exotic reaction is observed to become exactly $16$ times strictly greater when the initial reactant concentration is intentionally halved. What is the fundamental absolute kinetic order of this specific reaction?
Answer: 5
💡 Solution & Explanation
Applying the relationship $t_{1/2} \propto (1/a)^{n-1}$. Comparing the two states: $t_2 / t_1 = (a_1 / a_2)^{n-1}$. Given $t_2 = 16 t_1$ and $a_2 = 0.5 a_1$. Substituting these: $16 = (a_1 / 0.5a_1)^{n-1} \Rightarrow 16 = (1 / 0.5)^{n-1} \Rightarrow 16 = 2^{n-1}$. Because $2^4 = 16$, we have $n - 1 = 4$, which resolves to $n = 5$.
💬Ask on WhatsApp →
Still have doubts about this question?
Send it to our AI chemistry tutor on WhatsApp — gets answered in minutes