2. Classify the following variable as nominal, ordinal, discrete, or continuous and state why it is such a variable:
number of automobile accidents per year (Points : 3)
. Classify the following as an example of a nominal, ordinal, interval, or ratio level of measurement, and state why it represents this level:
eye color of family members (Points : 3)
Discrete data cannot be expressed in fractions, while continuous data can.
Below is an article that will help you discriminate between measurement scales.
2 + 2 = 4, But Not Always
Believe it or not, sometimes 2 + 2 does not equal 4. It depends on what type of measurement scale you are using. There are four types of measurement scales – nominal, ordinal, interval, and ratio. Only in the last two categories does 2 + 2 = 4. Let me explain.
All the nominal scale does is name or classify. Each number merely represents a category or individual. For example, numbers on baseball or football uniforms are only nominal. Having the number "1" on your uniform does not necessarily mean you are "numero uno" (the best) in your sport. Social security numbers are also nominal. All they do is name or classify the individual.
The ordinal scale has all the qualities of the nominal scale plus the ability to rank objects according to some attribute. If you ranked all the members of a group according to height, "1" would be the tallest, "2" the second tallest and so on. However, the intervals between these rankings are not necessarily equal. If the tallest people were 5'11", 5'8" and 5'7", respectively, the interval between the first two ranks would be 3 inches, while the interval between the last two is only 1 inch. Ranking in various sports and beauty contests are also only ordinal scales.
An interval scale combines the qualities of the previous scales with equal intervals. The best example would be a centigrade (Celcius) thermometer. The change in heat between 0oC and 10oC is the same as between 10oC and 20oC. But watch out! 20oC is not twice as hot as 10oC! Why? Interval scales have arbitrary zeros (just because we decided to call it zero), rather than absolute (true) zeros. At 0oC water freezes, but that does not mean that there is no heat.
In contrast, the ratio scale has all the qualities of the previous scales plus an absolute (true) zero, as with a Kelvin thermometer. At 0oK, theoretically there is no heat. You have nothing of what you are measuring, therefore the zero is true or absolute. However, 0oK = -273oC. Since one degree indicates the same heat change in both scales, we can see what happens when we compare them.
20oC = 293oK
10oC = 283oK
0oC = 273oK
-273oC = 0oK
Thus 20oC is not twice as hot as 10oC! Although this may seem confusing, it becomes very clear when you switch to the Kelvin scale – 293oK definitely does not even look like it is twice as hot as 283oK. Only with a ratio scale – with a true zero – can you correctly use the concept of multiples. Length, height, and weight are ratio scales. Therefore, you can correctly say that "A yard is three times longer than a foot" or "A 200-pound man weighs twice as much as a 100-pound woman."
If you are having some trouble understanding this, it is probably because most of you have only used ratio scales in school. Mathematics courses typically deal only with scales that have true zeros and equal intervals.
How does this relate to psychology? Most psychological tests are only ordinal measures! Let's say that three different people score 60, 40 and 20 on a test of extraversion (having outgoing personality traits). Because it is an ordinal scale we can correctly say that 60 is the most extraverted (rank #1), 40 is the second most, and 20 is the third most or least extraverted.
Notice that the difference between 60 and 40 is 20, and the difference between 40 and 20 is also 20. However, a 20-point difference in one part of the scale may not have the same meaning as a 20-point difference in another part of the scale. Thus the same difference of 20 points may not reflect the same underlying difference in extraversion, because we don't know if the intervals are equal. It is not an interval scale.
Likewise, even though 20 x 2 = 40 and 20 x 3 = 60, we cannot correctly say that the person with a score of 60 has three times the extraversion as the person with 20 or that the person with a score of 40 has twice as much. We cannot compare scores in terms of multiples, because the scale has no true or absolute zero. It is not a ratio scale.
Again, most psychological tests – and almost all tests used in our schools (including mine) – are only ordinal measures. These tests allow ranking of people according to various attributes — personality traits or knowledge in specific subject areas. However, if someone gets a score twice as great as yours, it does not mean that person knows twice as much as you do.
The variable "number of automobile accidents per year" can be classified as discrete. This is because the variable represents a count or a whole number value that cannot be divided or measured in fractions. The number of automobile accidents is obtained by counting the occurrences, and it cannot take values like 2.5 or 3.75. Therefore, it is considered a discrete variable.
The variable "number of automobile accidents per year" can be classified as discrete.
Discrete variables are ones that can only take on specific, separate values. In this case, the number of automobile accidents can only be a whole number, such as 0, 1, 2, 3, etc. It cannot take on values between these whole numbers, for example, it cannot be 1.5 accidents or 2.7 accidents.
To determine the classification of this variable, you simply need to consider the nature of the data it represents. Since the number of automobile accidents per year is a count and can only take on whole numbers, it fits the definition of a discrete variable.