Four Basic Types Of Measurement:Categorizing NominalRankingOrdinalDetermination of the size intervalIntervalDetermination of the size of ratiosRatio

CENTRAL TENDENCY AND VARIABILITY (NOMINAL SCALES)Information:guessing game (ESP experiments)Background: - Transmission of signals - How much is lost in channel? - How to measure the information transmitted in a message?

CENTRAL TENDENCY AND VARIABILITY (NOMINAL SCALES)One word - no guessesTwo words - one guessFour words - two guessesEight words - three guesses

-# of guesses - power to which two needs to be raised to define # of words, or log to base 2 of # of alternatives-Number of guesses called # of bits (binary units)

Varying amounts of information

Nominal scales: Name of category does not imply rank, even if it is a number.

Nominal ScalesAssignment to categories according to a rulee. g., manic - depressiveparanoid - schizophrenicinvolutional - melancholicStarting point of scienceChemists - elementsPhysicists - atoms and sub-atomic particlesLineaus - biological categoriesFreud - infantile sexuality - neurotic disordersModern Psychology does it have reliable units of analysis?Reflexes?short term memory?behavior disorders?

Frequency Distributions(Nominally Scaled Data)Bar graph - histogramMode - summary statistic

Ordinal scales: -Numbers convey relative magnitude.rank of one usually assigned to highest magnitudecant add or subtract ranks, e. g., ranks of weightRank:Weight (lbs.)120022033425.5

Ordinal Scales Summary Statistics:Central Tendency: Median (as many observations above median as below it)Variability: Range (difference between the smallest and highest values)

Interval scales:Size of difference is knownUnits are of equal size

Ratio scales:True zero point existsMultiplication or division possible

Magnitude of Psychological Judgments as a Function of Physical Intensity

CALCULATING THE MEANGiven the raw data: 2, 4, 6, 8, 10

Arithmetic Mean = Center of Gravity

Symmetrical DistributionsAsymmetrical Distributions

Symmetrical Distributions

Skewed (Asymmetrical) Distrubutions

Measures of Central Tendency in a Positively Skewed Distribution

Binomial Distributions

CALCULATING DEVIATIONS FROM THE MEANGiven the raw data: 2, 4, 6, 8, 10Mean Deviation=

Mean Absolute Deviation=

Variance =

Standard Deviation =

MEASURING WITH THE STANDARD DEVIATION: Z-SCORES

Given the raw data: 2, 4, 6, 8, 10

CORRELATION

Normal Distribution

r = +1.0r = -1.0ZyZxZyZx

Example of Positive Correlation

Examples of Positive, Negative and Minimal Correlation

Relationship Between r2 and Predicted VarianceExample: measures of rainfall and corn height

Suppose that r = 0.8.This means that 64% (0.8)2 of the variance of the height of corn height is accounted for by knowledge of how much rain fell.

VALIDITY AND RELIABILITYReliability: To what extent will a test give the same set of results over repeated measurements?Validity: To what extent does a test measures what it purports to measure?Validity and reliability are measured as correlation coefficients.

Measuring reliability:Odd-even or split-half method: To what extent does one half of the test agree with the items of the second half of the test?Test-retest: Results of test is given on two different occasions are compared. Assumes that there are no practice effectsAlternative form: Where there is a practice effect, an alternative form of the original test is given and the results are compared. A reliable test may not be valid. A valid test must be reliable may not be valid. A valid test must be reliable.

HERITABILITYHeritability: The proportion of variance of a phenotype that is attributable to genetic variance.Phenotype: Observable traitGenotype: What is transmitted from generation to generationWhat % of a phenotype is genetic?Hertiability is calculated by determining phenotypic variance and the magnitudes of its two components (genetic and environmental variance)

2222GPEP+=1 Calculation of Heritability

2p = 2g + 2e Heritability: The proportion of variance of a phenotype that is attributable to genetic variance.

Which Contributes More to Area?Width or Length

Heritability

HERITABILITY DOES NOT APPLY TO INDIVIDUALS!

Example: h2 of IQ = 0.6. This does not mean that 60% of an individuals IQ is genetic and 40% is environmental.

Heritability

Heritability is Specific to the Population in which its Measured

Minimum & maximum values of h (coefficient of heritability):

h = 0.00: None of the observed values of phenotype is due to genes (all of it is due to environmental differences).h =1.00: All of variance is due to genes.

22GP=h2(h2 > 0 < 1)__

Examples Of Heritability Coefficients:Piebald Holstein Cow;h2 = .95 (color)h2 = .3 (milk production)Pigs:h2 = .55 (body fat)h2 = .15 (litter size) h2 is specific to the environment and population studied.

HERITABILITY ESTIMATES ARE SPECIFIC TO POPULATIONS AND ENVIRONMENTS IN WHICH THEY ARE MEASURED!Example 1: Heritability of skin color in Norway and the United States. Its higher in the United States. Why? Because, in Norway the environment contributes more to phenotypic variation than family background. In the United States family background contributes more to variation in skin color then the environment.

HERITABILITY ESTIMATES ARE SPECIFIC TO POPULATIONS AND ENVIRONMENTS IN WHICH THEY ARE MEASURED!Example 2: Heritability of Tuberculosis. Decreased during the 20th century because of changes in the environment. Up to and during the 19th century, everyone who was exposed to germ got sick if they were susceptible. Improved hygiene made it less likely that genetically disposed individuals will get TB. Thus, heritability of TB decreased as environmental diversity increased.

How to Reduce h2

1.Interbreed - this reduces 2g2. Increase 2e.

How to Increase h2

1.outcrossing - new genes2. mutation - new genes3.select for rare characteristics4. reduce 2e.