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Nominal
scales are designed to classify cases into mutually exclusive
and exhaustive categories. Diagnosis is assessed with a nominal
scale: we simply tally the number of individuals according to
the presence of specific and distinct disease states. Few mathematical
operations -- other than an analysis of proportions -- can be
performed using nominal data: "mean" disease, for example,
is not a meaningful calculation. Ordinal data are derived from
scales designed to assess variations in "more" or "less"
of an attribute, and the distance between items on the scale are
non--equivalent. The most recent college sports poll is a representative
ordinal rating; one would be pressed to argue that the 10th
rated team is ten times worse than the 1st place team.
Data gathered through use of nominal and ordinal scales are appropriately
analyzed with non-parametric statistics, i.e. those that do not
depend on population estimates such as the mean or standard deviation.
In interval
measurement the distance between measured units is meaningful
and so basic addition and subtraction are permissible. But the
scale is centered on a relative standard and statements about
the fractional change between scores are strained. For example,
the Fahrenheit scale is centered on the temperature at which water
freezes; and although the distance between units on the Fahrenheit
scale reflects an equivalent change in mercury levels, 100o
feels much more than twice as hot as 50o. Ratio scales,
by rule, have the properties of interval scales and a zero point.
Physical variables such as weight and length as well as many other
variables that can be counted (e.g. dollars earned, clients seen,
prescriptions filled) are measured with ratio scales.
Question
17.2
A visual
analogue scale is a
 | Nominal
scale |
 | Ordinal
scale |
 | Interval
scale |
 | Ratio
scale |
 | Good
question |
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