Question:
Let \( X_1, X_2, X_3 \) be a random sample from a continuous distribution with the probability density function
\[
f(x) = \begin{cases}
e^{-(x-\mu)}, & x \geq \mu \\
0, & \text{otherwise}
\end{cases}
\]
Let \( X_{(1)} = \min\{X_1, X_2, X_3\} \) and \( c > 0 \) be a real number. Then \( (X_{(1)} - c, X_{(1)}) \) is a 97% confidence interval for \( \mu \), if \( c \) (round off to 2 decimal places) equals ................
Let \( X_1, X_2, X_3 \) be a random sample from a continuous distribution with the probability density function
\[ f(x) = \begin{cases} e^{-(x-\mu)}, & x \geq \mu \\ 0, & \text{otherwise} \end{cases} \]
Let \( X_{(1)} = \min\{X_1, X_2, X_3\} \) and \( c > 0 \) be a real number. Then \( (X_{(1)} - c, X_{(1)}) \) is a 97% confidence interval for \( \mu \), if \( c \) (round off to 2 decimal places) equals ................Show Hint
For confidence intervals involving order statistics, use the CDF of the order statistic and solve for the required probability. The exponential distribution’s memoryless property often simplifies the calculation.
Updated On: Dec 12, 2025
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Correct Answer: 1.12
Solution and Explanation
Step 1: Identify the distribution of the minimum.
The minimum of \( X_1, X_2, X_3 \) is \( X_{(1)} = \min\{X_1, X_2, X_3\} \). Since the \( X_i \)'s are i.i.d. and follow an exponential distribution with parameter \( \mu \), the cumulative distribution function (CDF) of \( X_{(1)} \) is: \[ F_{X_{(1)}}(x) = 1 - (1 - F_X(x))^3 = 1 - e^{-3(x - \mu)} \quad \text{for} \quad x \geq \mu. \] Step 2: Use the 97% confidence interval.
For a 97% confidence interval, we want the probability that \( X_{(1)} \) lies within \( (X_{(1)} - c, X_{(1)}) \) to be 0.97. Therefore, we solve for \( c \) such that: \[ P(X_{(1)} \geq c) = 0.97. \] This leads to: \[ e^{-3c} = 0.03 \quad \Rightarrow \quad 3c = \ln\left(\frac{1}{0.03}\right) \quad \Rightarrow \quad c \approx 1.8. \] Final Answer: \[ \boxed{1.8}. \]
The minimum of \( X_1, X_2, X_3 \) is \( X_{(1)} = \min\{X_1, X_2, X_3\} \). Since the \( X_i \)'s are i.i.d. and follow an exponential distribution with parameter \( \mu \), the cumulative distribution function (CDF) of \( X_{(1)} \) is: \[ F_{X_{(1)}}(x) = 1 - (1 - F_X(x))^3 = 1 - e^{-3(x - \mu)} \quad \text{for} \quad x \geq \mu. \] Step 2: Use the 97% confidence interval.
For a 97% confidence interval, we want the probability that \( X_{(1)} \) lies within \( (X_{(1)} - c, X_{(1)}) \) to be 0.97. Therefore, we solve for \( c \) such that: \[ P(X_{(1)} \geq c) = 0.97. \] This leads to: \[ e^{-3c} = 0.03 \quad \Rightarrow \quad 3c = \ln\left(\frac{1}{0.03}\right) \quad \Rightarrow \quad c \approx 1.8. \] Final Answer: \[ \boxed{1.8}. \]
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