The importance of proper sampling revolves around the degree of confidence with which the analyst is able to answer the questions being asked.
Simple random sampling:
Any particular sample of a specified sample size has the same chance of being selected as any other sample of the same size.
Sample size means the number of items in the sample.
Biased sample:
Example: A sample is chosen to answer certain questions regarding political preferences in a certain state.
Now, suppose that all or nearly all of the 1000 sampling families chosen live in urban (vs. rural) areas.
Biased sample confined the population and thus the inferences need to be confined to the limited population.
Stratified random sampling:
The sampling units are not homogeneous and divide themselves into non-overlapping groups, called strata.
Separate random samples are chosen from each stratum with sample sizes proportional to the size of the stratum.
The purpose is to be sure that each of the strata is neither over- or under-represented. For example,
A sample survey is conducted to gather some political opinions in a city,
The city is subdivided into several ethnical group,
Separate random samples of families could be chosen from each group.
In an experiment, we apply treatments to experimental units and proceed to observe the effect.
Excessive variability among experimental units will wash out any detectable difference among populations.
A standard approach is to assign the experimental units randomly to different treatments. For example,
In a drug study, we use a total of 200 available patients.
Age, gender, weight, and other characteristics of the patients may produce variability in the results.
In a completely randomized design, 100 patients are assigned randomly to placebo and 100 to the active drug.
Example 1.3. A corrosion study to determine if coating of an aluminium reduces the amount of corrosion.
A corrosion measurement can be expressed in thousands of cycles to failure. (more cycles means less corrosion)
Four treatment combinations:
two levels of coating: no coating and chemical coating
two relative humidity level: 20% and 80%
Eight experiment units are used, with two assigned randomly to each of four treatment combinations.
The corrosion data are averages of 2 specimens.
Table 1.2:
Data for Example 1.3
Coating
Humidity
Thousands of Cycles to Failure
Uncoated
20%
975
Uncoated
80%
350
Chemical Coated
20%
1750
Chemical Coated
80%
1550
Figure 1.5:
Corrosion results for Example 1.3.
Consider the variability around the average:
The use of the chemical corrosion coating procedures appears to reduce corrosion if two corrosion values at each treatment combination are close together.
If each corrosion value is an average of two values that are widely dispersed, then this variability wash away any information we obtain.
Three concepts are illustrated:
Random assignment of treatment combination to experiment units.
The use of sample average in summarizing sample information.
The need for consideration of measures variability in the analysis of sample sets.