Answer :
Answer:
≈ 0.10M
Explanation:
[A]o = 0.27M
Rate constant, k = 0.75 s−1
[A] = ?
time, t = 1.3
Integrated formular for a first order reaction is given as;
ln[A] = ln[A]o − kt
ln[A] = ln(0.27) - 0.75(1.3)
ln[A] = -1.309 - 0.975
ln[A] = -2.284
[A] = 0.1019M ≈ 0.10M
Answer:
0.10 M
Explanation:
Given data
- Initial concentration of the reactant ([A]₀): 0.27 M
- Rate constant (k): 0.75 s⁻1
- Time (t): 1.3 s
- Concentration at time t ([A]): ?
For a first-order reaction, we can find the concentration of the reactant at a certain time using the following concentration vs. time expression.
[tex][A]=[A]_{0}.e^{-k\times t}[/tex]
[tex][A]=0.27M.e^{-0.75s^{-1} \times 1.3s}[/tex]
[tex][A]=0.10M[/tex]