According to recent research, air turbulence has increased in various regions around the world due to climate change. Turbulence makes flights bumpy and often delays the flights. Assume that an airplane observes severe turbulence, moderate turbulence or light turbulence with equal probabilities. Further, the chance of an airplane reaching late to the destination are \(55\%\), \(37\%\) and \(17\%\) due to severe, moderate and light turbulence respectively.
On the basis of the above information, answer the following questions:
(i) Find the probability that an airplane reached its destination
(ii)If the airplane reached its destination late, find the probability that it was due to moderate turbulence.
Given Information:
1. Turbulence can be severe, moderate, or light, each occurring with equal probabilities:
\(P(\text{Severe}) = P(\text{Moderate}) = P(\text{Light}) = \frac{1}{3}.\)
2. The probability of an airplane reaching late due to: - Severe turbulence: \(P(\text{Late}|\text{Severe}) = 0.55\) ,
- Moderate turbulence: \(P(\text{Late}|\text{Moderate}) = 0.37\), - Light turbulence: \(P(\text{Late}|\text{Light}) = 0.17\).
(i) Find the probability that an airplane reached its destination late. Using the law of total probability:
\(P(\text{Late}) = P(\text{Late}|\text{Severe})P(\text{Severe}) + P(\text{Late}|\text{Moderate})P(\text{Moderate}) + P(\text{Late}|\text{Light})P(\text{Light}).\)
Substitute the values:
\(P(\text{Late}) = (0.55 \cdot \frac{1}{3}) + (0.37 \cdot \frac{1}{3}) + (0.17 \cdot \frac{1}{3}).\)
Simplify:
\(P(\text{Late}) = \frac{0.55 + 0.37 + 0.17}{3} = \frac{1.09}{3}.\)
Thus:
\(P(\text{Late}) = 0.3633 \, (\text{approximately}).\)
(ii) If the airplane reached its destination late, find the probability that it was due to moderate turbulence.
Using Bayes' theorem:
\(P(\text{Moderate}|\text{Late}) = \frac{P(\text{Late}|\text{Moderate})P(\text{Moderate})}{P(\text{Late})}.\)
Substitute the values: \(P(\text{Moderate}|\text{Late}) = \frac{(0.37 \cdot \frac{1}{3})}{0.3633}.\)
Simplify: \(P(\text{Moderate}|\text{Late}) = \frac{0.37}{3 \cdot 0.3633} = \frac{0.37}{1.09}.\)
Thus: \(P(\text{Moderate}|\text{Late}) = 0.3394 \, (\text{approximately}).\)
Final Answers: 1. The probability that an airplane reached its destination late is:
\(P(\text{Late}) = 0.3633.\)
2. The probability that the airplane was late due to moderate turbulence is: \(P(\text{Moderate}|\text{Late}) = 0.3394.\)
A compound (A) with molecular formula $C_4H_9I$ which is a primary alkyl halide, reacts with alcoholic KOH to give compound (B). Compound (B) reacts with HI to give (C) which is an isomer of (A). When (A) reacts with Na metal in the presence of dry ether, it gives a compound (D), C8H18, which is different from the compound formed when n-butyl iodide reacts with sodium. Write the structures of A, (B), (C) and (D) when (A) reacts with alcoholic KOH.