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Basic Statistical Concepts. EXED 530. Scales of Measurement. Nominal Are categorical data. Represent names only but not amount. Telephone numbers, social security and species of birds. Ordinal Rank order. Class rank or horse races, first, second, etc. Scales of Measurement. Interval
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Basic Statistical Concepts EXED 530
Scales of Measurement • Nominal • Are categorical data. • Represent names only but not amount. • Telephone numbers, social security and species of birds. • Ordinal • Rank order. • Class rank or horse races, first, second, etc.
Scales of Measurement • Interval • Equal differences in scores represent equal distances in amount of property measured but with an arbitrary zero point. • Fahrenheit and IQ. • Ratio • All the properties of an interval scale with zero meaning zero. • Distance, duration, weight.
Measures of Central Tendency • Mean • M=Sum of all scores /number of scores • Mathematical average. • Median • Middle point…half of the score are above and half of the scores are below. • Mode • Most frequently occurring score.
Frequency Distribution • Expresses how often a score occurs in a set of data. • Often used to determine mode. • Always rank order the data from the smallest to the largest number.
Range • The range is the difference between the high score and the low score. • R=High score-Low score • Caution***If one score is extreme it can greatly affect the range.
Variance • Tells you the spread of scores within a distribution. • Calculation: • List all scores. (X) • Find the mean of the distribution. (M) • Set up a column with the mean next to each score. • Subtract the mean from each score. (X-M) • Square each score. (X-M) (X-M) • Add all scores to get the Sum of all Squares. • Divide the Sum of all Squares by the total number of test scores.
Standard Deviation • Is the spread of scores around the mean. • Is calculated by taking the square root of the variance. • Calculation: • List all scores. (X) • Find the mean of the distribution. (M) • Set up a column with the mean next to each score.
Continued… • Subtract the mean from each score. (X-M) • Square each score. (X-M) (X-M) • Add all scores to get the Sum of all Squares. • Divide the Sum of all Squares by the total number of test scores. • Find the square root.
Normal Curve • Also called the bell curve. • Hypothetically represents the way scores would fall if a particular test is given to everyone of the same group. • Is symmetrical.
Skewed Distributions • A distribution on which the majority of the score fall either on the high end or low end of the curve. • On a positively skewed distribution more of the scores fall below the mean. • On a negatively skewed distribution more of the scores fall above the mean.
Correlations • Relationships between two variables. • Positive correlation: when a high score on one variable is accompanied by a high score on the other or conversely low scores on one are associated with low scores on the other. • IQ and academic achievement. • Education and income.
Continued… • Negative Correlation: when a high score on one is accompanied by a low score on the other or low scores on one are associated with high scores on the other. • Teacher stress and job satisfaction. • Anxiety and performance.
Continued… • Zero Correlation: there is no relationship between variables. • Foot size and grades on exams. • Weight and IQ. • Correlation Coefficient: used to describe the statistical relationship between two variables. • Represented by r. • Closer you get to +1.00 or –1.00 the stronger the relationship.