This document discusses concepts related to measurement and sampling in field research. It defines key terms like population, element, sampling, sampling frame, census, survey, parameter, and statistic. The document explains that sampling involves selecting a subset of a population to study in order to make inferences about the larger population. It notes that samples must be representative of the population and discusses factors like sampling method, sample size, and sampling error that impact representativeness. The document also outlines the steps in the sampling process and lists some advantages of sampling like being faster and cheaper than studying the entire population.
2. Population
The entire group of people of interest from whom the
researcher needs to obtain information.
Element (sampling unit)
one unit from a population
Sampling
The selection of a subset of the population
Sampling Frame
Listing of population from which a sample is chosen
Census
A polling of the entire population
Survey
A polling of the sample
Terminology
3. Parameter
The variable of interest
Statistic
The information obtained from the sample about the
parameter
Goal
To be able to make inferences about the population
parameter from knowledge of the relevant statistic - to
draw general conclusions about the entire body of units
Critical Assumption
The sample chosen is representative of the population
Terminology
4. The process of obtaining information from a subset (sample)
of a larger group (population)
The results for the sample are then used to make estimates
of the larger group
Faster and cheaper than asking the entire population
Two keys
1. Selecting the right sampling method
Have to be selected scientifically so that they are
representative of the population
2. Selecting the right number of the samples
To minimize sampling errors
Sampling
5. Population Vs. Sample
Population of Interest
Sample
Population Sample
Parameter Statistic
We measure the sample using statistics in order to draw
inferences about the parameters of the population.
6. Steps in Sampling Process
1. Define the population
2. Identify the sampling frame
3. Select a sampling design or procedure
4. Determine the sample size
5. Draw the sample
7. Purpose of sampling
To gain an impression of an area or collection of
things
To estimate a population parameter
To test hypotheses: unproven theories or
suppositions which are the basis for further
investigation
8. Advantages of sampling
The only means of obtaining data about an
infinite population (e.g. air temperatures)
Cost and time effective means of obtaining
data about a large finite population; better
data then hastily collected data for the entire
population
Desirable when measurement is destructive or
stressful, e.g. plant sampling, some
measurements on people
9. Sampling error
Error in a statistical analysis arising from the unrepresentativeness of the sample
taken.
It depends on measurement error and the representativeness of a sample, which
in turn depends on
1. Sample size
Decrease in sampling error with increasing sample size
A minimum sample size is three
2. The sampling frame
The means by which the sampled population is identified from the target
population
If poor it causes bias towards the sampling
3. The sampling procedure
Random sampling
Random location
Regular intervals and thus have a uniform distribution
10. Characteristics of Measurement
1. Validity
A valid measurement is a quantity or dimension that corresponds to the
measured variable
There are standard measurements (procedures and expressions) for common
variables
2. Accuracy
Closeness of measurements to an expected or true value
Accuracy is inversely proportional to error (i.e. high accuracy corresponds to
low error)
Types of error:
gross: blunders caused by carelessness of instrument failure
systematic: consistent overestimation or underestimation of the target value;
usually caused by poor calibration of an instrument or a poor measurement
procedure
random: human error randomly (normally) distributed with respect to the
mean observation
3. Precision
The closeness of repeated measurements to one another