Step-by-step explanation: To determine which sampling strategy provides the best sample, we need to compare the sample means and standard deviations with the population mean and standard deviation.
Let's analyze each sample:
Sample 1:
Sample mean (x-bar) = 16.9
Sample standard deviation (s) = 6
Sample 2:
Sample mean (x-bar) = 14.5
Sample standard deviation (s) = 4.7
Sample 3:
Sample mean (x-bar) = 10.5
Sample standard deviation (s) = 3.3
Sample 4:
Sample mean (x-bar) = 17
Sample standard deviation (s) = 4.9
Sample 5:
Sample mean (x-bar) = 14.1
Sample standard deviation (s) = 8.4
Now, let's compare these values to the population mean (μ) and standard deviation (σ).
Population mean (μ) = 14
Population standard deviation (σ) = 5
By comparing the sample means to the population mean, we can see that Sample 1 (x-bar = 16.9) and Sample 4 (x-bar = 17) have higher means than the population mean, indicating that they might be closer to the true population mean.
However, when we consider the sample standard deviations, Sample 2 (s = 4.7) has the lowest standard deviation, indicating less variability within the sample.
Therefore, based on the given data, the sampling strategy with Sample 2 (x-bar = 14.5, s = 4.7) can be considered the best sample as it has a sample mean close to the population mean and a lower standard deviation compared to the other samples.