Unit 3: Ch. 12

Question 1

descriptive statistics

Answer 1

used to describe and synthesize data; typically used to describe demographic data

Question 2

inferential statistics

Answer 2

used to make inferences about the population based on the sample

Question 3

frequency distributions

Answer 3

systematic arrangement of numeric values on a variable from the lowest or the highest with a count or percentage of the number of times each value occurred
-ex: 57%, 5%, 28%, n=27

Frequency distributions can be described in terms of:

• shape
• central tendency
• variability

Can be presented in a table (Ns and percentages) or graphically

Standard deviation: abbreviated as “SD” in articles

• average deviation of scores in a distribution
• small SD indicates consistency among respondents; large SD indicates wide variation

Question 4

standard deviation

Answer 4

abbreviated as “SD” in articles

• average deviation of scores in a distribution
• small SD indicates consistency among respondents; large SD indicates wide variation

Question 5

frequency distributions: shape

Answer 5

symmetric or asymmetric

asymmetric = “skewed”

skew is a rough indicator of the normality of the distributed data; reflects the degree w/ which scores on a variable fall at one end of the other on the scale of a variable

• normality: under a normal curve, it’s a normal distribution (“bell shaped curve”)
• skew test: ex test scores
• if the majority of scores fall at the high end of the scale, the distribution is negatively skewed
• if the majority of the scores fall at the low end of the scale, the distribution is positively skewed

Question 6

frequency distributions: central tendency

Answer 6

an index of the typicalness of a set of scores that comes from the center of the distribution
-ex: normal curve (“middle 2/3 of the normal curve”)

3 measures:

• Mode: most frequently occurring score in distribution
• Median: point in the distribution in the middle
• Mean: average; in articles you’ll see “M” for mean or the word “average”; may see “x-bar” (an “x” w/ a line over it)

Question 7

frequency distributions: variability

Answer 7

degree to which scores in a distribution are spread out or dispersed

• homogeneity: when there is little variability in the group of scores you have (“everybody is roughly getting in the same few scores”)
• heterogeneity: a lot of variability (ex: exam scores)
• Range: highest value to the lowest value

Question 8

bivariate descriptive statistics include? (2)

Answer 8

1. cross tabs (aka contingency table)

2. correlation coefficients

Question 9

bivariate descriptive statistics: Cross Tabs (Contingency Table or 2-way ANOVA)

Answer 9

evaluates whether a statistical relationship exists between 2 variables, each of which has different levels

• ex: types of maltreatment (maltreatment is a “construct” with 5 levels); demographic variables (whether or not someone is a HS graduate, whether or not they’re employed)
• researcher ends up with the probability of a thing happening
• -> ex: “adolescent mothers who have been sexually abused were 2.5 times more likely to be high school graduates and employed”
• produces an odds ratio
• -> odds ratio: the odds of one thing happening versus the odds of another thing happening
• —> ex: high school graduation: either you graduate or you don’t, odds ratio gives probability of that happening

Question 10

bivariate descriptive studies: Correlation Coefficients

Answer 10

describe the intensity and direction of a relationship between 2 variables

intensity: represented by the absolute value of a number

direction of the relationship is indicated by either a positive (+) or a negative (-) sign

the higher the absolute value of a number the stronger the relationship

• ex: number of 0.25 is much weaker than relationship with 0.80
• when looking at the strength of the relationship you’re not looking at the +/- sign –> you’re just looking at the number itself (the absolute value)

Correlation uses the “r” statistic (“r=”)

Negative relationship: inverse relationship; when one variable goes up the other variable goes down

Positive relationship: when one variable goes up the other variable goes up

R = -0.45 and -0.80 –> -0.80 is stronger relationship

Question 11

describing risk

Answer 11

clinical decision making for EBP may involve the calculation of risk indexes, so that decisions can be made about relative risks for alternative tx or exposures

Some frequently used indexes:

• absolute risk
• absolute risk reduction (ARR)
• odds ratio (OR)

Question 12

absolute risk

Answer 12

the proportion of people who experienced an undesirable or desirable outcome
-ex: proportion of smokers who get lung cancer

Question 13

absolute risk reduction (ARR)

Answer 13

the difference between the absolute for exposure to an outcome and the absolute risk for no exposure to an outcome (“exposure minus no exposure”)

Question 14

odds ratio (OR)

Answer 14

proportion of people w/ an adverse outcome relative to the people w/o the adverse outcome (“probability”)

ex: OR = 1.75

may be seen in conjuncture with confidence intervals

look at p. 225 of textbook for examples of OR

needs to be statistically significant to mean that the result didn’t happen by accident

Question 15

inferential statistics

Answer 15

used to make objective decisions about population parameters using the sample data
-using a sample to make decisions about the whole population

based on laws of probability

Question 16

Point estimation

Answer 16

a single, descriptive statistic that estimates the population value (e.g. a mean, percentage, or OR)
-basically saying you have one number you’re dealing with

Question 17

SEM (standard error of the mean)

Answer 17

used to determine the SD of the sampling distribution

Question 18

Interval Estimation

Answer 18

a range of values within which a population value probability lies
-involves computing a confidence interval (CI)

Question 19

confidence interval (CI)

Answer 19

indicates an upper and lower range; looking at the probability of a particular score you get being within that range

ex: 95% CI of 40-60 for a sample mean of 45 indicates there’s a 95% probability that any one score will be between that range

Question 20

parametric statistics

Answer 20

involves the estimation of a parameter; assumes variables are normally distributed in the population (“not skewed”); measurements are on interval/ratio scale

use for big samples

Question 21

nonparametric statistics

Answer 21

does not involve estimation of a parameter; measurements typically on nominal or ordinal scale; doesn’t assume normal distribution in the population

use for small samples

Question 22

type 1 error

Answer 22

rejecting a null hypothesis when it’s true

• getting a false positive
• saying someone has a condition/dz when they don’t have it (ex: false positive pregnancy test)

Question 23

type 2 error

Answer 23

accepting the null hypothesis when it’s false

• getting a false negative
• saying that someone doesn’t have a condition/dz when they really do

Question 24

level of statistical significance

Answer 24

significance does not mean important or meaningful
-means it didn’t happen by accident

level of significance is set by the researcher

p < 0.05 - means that the finding was statistically significant (“didn’t happen by accident/chance”)
-“95% chance that the findings are real”

p < 0.01 - means that the finding was statistically significant (“didn’t happen by accident/chance”)
-“99% chance that the findings are real”

Question 25

Bivariate statistical tests include? (4)

Answer 25

1. t-tests
2. Analysis of variance (ANOVA)
3. Correlation coefficients
4. Chi-squared test

Question 26

t-tests

Answer 26

uses the “t” statistic, tests the difference between the means of 2 groups

• asking if the group means are different from each other
• the mean can be from 2 independent groups (such as men vs. women) or from 2 dependent groups or paired groups (such as preop vs. postop)

Question 27

analysis of variance (ANOVA)

Answer 27

tests the difference between more than 2 means; “a whole family of statistics”

uses the “f” statistic

one way ANOVA: 3 different groups researchers are testing the means on

two way ANOVA (multi-factor ANOVA): contingency table or cross tabs

repeated measures ANOVA (RM-ANOVA): may be used on longitudinal study

Question 28

correlation coefficients

Answer 28

correlations test the relationship between variables; “Pearson’s Product Moment;” Pearson’s uses the “r” statistic

Parametric Version: “Pearson’s;” large sample

Nonparametric Version: “Spearman’s Rho;” small sample; may be used to confirm a correlation

Question 29

Chi-squared test

Answer 29

tests the proportions of categories within a contingency table; looking at frequencies; comparing observed frequencies
-measured on nominal or ordinal scale

chi-squared: x^2

computed by summing differences between the observed frequencies in each cell and the expected frequencies - those that would be expected if there were no relationship between the variables

Question 30

multivariate statistical analysis

Answer 30

statistical procedures for analyzing relationships among three or more variables

commonly used procedures in nursing research:

• multiple regression
• analysis of covariance (ANCOVA)
• multivariate analysis of variance (MANOVA): procedures for analyzing relationships among 3 or more variables
• logistic regression

*be familiar with the names of these rather than what they do

Question 31

effect size

Answer 31

an important concept in power analysis

• asks “how big was the intervention or treatment on the outcome?”
• “if you have an intervention you’re going to have an effect size of some kind”
• power analysis
• known relationship: use a 1 tailed test
• unknown relationship: use a 2 tailed test

effect size indexes summarize the magnitude of the effect of the independent variable on the dependent variable

seen mostly in SYSTEMATIC REVIEWS

in a comparison of 2 groups (i.e., in a t-test situation), the effect size index is “d”

by convention:

• d ≤ 0.20 = small effect
• d = 0.50 = moderate effect
• d ≥ 0.80 = large effect

Question 32

power analysis

Answer 32

estimate of the sample size needed to detect an effect from the IV on the DV (if there is one)

• tells you the right sized sample so if there’s an effect from the tx you’ll pick it up
• “49 participants achieved a power of 80 with a moderate effect size of…”

Question 33

When indexes such as averages and percentages are calculated with data from a population, they are ____.

Answer 33

parameters

Question 34

A descriptive index from a sample is a ____.

Answer 34

statistic

Question 35

unimodal distribution

Answer 35

one peak

Question 36

multimodal distribution

Answer 36

2 or more peaks

Question 37

bimodal distribution

Answer 37

2 peaks

Question 38

univariate descriptive statistics

Answer 38

one-variable

ex: mean or SD describe one variable at a time

Question 39

bivariate descriptive statistics

Answer 39

describe relationships between 2 variables

Question 40

correlation matrix

Answer 40

variables are displayed in both rows and columns

Question 41

Pearson’s r

Answer 41

aka product-moment correlation coefficient

computed with interval or ratio measures

most commonly used correlation index

there are no fixed guidelines on what should be interpreted as strong or weak relationships, b/c it depends on the variables

Question 42

parameter estimation

Answer 42

used to estimate a population’s parameter

-ex: a mean, proportion, or a mean difference between 2 groups (e.g., men vs. women)

Question 43

sampling distribution of the mean

Answer 43

it’s theoretical: in practice, no one actually draws consecutive samples from a population and plots their means

Question 44

statistical hypothesis testing

Answer 44

uses objective criteria for deciding whether research hypotheses should be accepted as true or rejected as false

Question 45

The rejection of the null hypothesis is what researchers seek to accomplish through ____ ____.

Answer 45

statistical tests

Question 46

null hypothesis

Answer 46

states there is no relationship between the independent and dependent variables

Question 47

power

Answer 47

the ability of a statistical test to detect true relationships, and is the complement of beta (that is, power equals 1 minus beta).

Question 48

In hypothesis testing, researchers use study data to compute a ____ ____.

Answer 48

test statistic

Question 49

statistically significant

Answer 49

results are not likely to have been due to chance

Question 50

nonsignificant results (NS)

Answer 50

any observed difference or relationship could have been the result of a chance fluctuation

Question 51

p level

Answer 51

probability

Question 52

hypothesis testing process (5)

Answer 52

1. selecting a test statistic
2. specifying the level of significance
3. computing a test statistic
4. determining degrees of freedom (df)
   - refers to the number of observations free to vary about a parameter
5. comparing the test statistic to a theoretical value

Question 53

post hoc tests

Answer 53

aka multiple comparison procedures

Statistical analyses known as post hoc tests are used to isolate the differences between group means that are responsible for rejecting the overall ANOVA null hypothesis

Question 54

Researchers can improve their prediction of an outcome by performing a ____ ____ in which multiple independent variables are included in the analysis.

Answer 54

multiple regression

Question 55

multiple correlation coefficient

Answer 55

the coefficient in multiple regression

symbolized as “R”

R varies from .00 to 1.00 (NO negative values), showing the strength of the relationship between several independent variables and an outcome, but not direction.

researchers usually report multiple correlation results in terms of R^2 rather than R

Question 56

analysis of covariance (ANCOVA)

Answer 56

combines features of ANOVA and multiple regression; used to control confounding variables statistically
-“equalize” groups being compared

Question 57

logistic regression

Answer 57

analyzes the relationships between multiple independent variables and a nominal-level outcome (e.g., complaint vs. noncomplaint)

Question 58

T/F: Hypotheses should be described as being supported or not supported, accepted or rejected.

Answer 58

true