3: INDEPENDENT 1 WAY ANOVA

Question 1

one-way ANOVA

Answer 1

• used when we have 1IV with more than 2 levels
• estimates whether the population means under the different levels of the IV are different (estimate is based on the difference between the measured sample means)
• independent one-way ANOVA: between participants
• repeated measures one-way ANOVA: within participants
• just an extension of the T-test
• reduces type I error, by reducing number of tests

Question 2

familywise error rate

Answer 2

the probability that at least one of a ‘family’ of comparisons, run on the same data will result in a type I error
- it provides a corrected significance level (a’), expressing the probability of making a type I error
- ombnibus tests (e.g. ANOVA) control the familywise error rate

a’ = 1 - (1-a)^c
c = number of comparisons

Question 3

F-ratio

Answer 3

null: there is no difference between the populatino means under the different levels of the IV

F = variance between IV levels / variance within IV levels

F close to 0 - small variance between IV lvls realtive to within IV lvls

F further from 0 - large variance between IV lvls relative to within IV lvls

Question 4

independent ANOVA designs: what contributes to between IV level variance

Answer 4

• manipulation of IV (treatment effects)
• individual differences
• experimental error (random/constant error)

Question 5

independent ANOVA designs: what contributes to variance within IV levels

Answer 5

• individual differences
• experimental error (random error)

Question 6

t/F ratio

Answer 6

t/F = variance between IV levels/ variance within IV levels

variance between: includes the variance ‘caused’ by our manipulation of the IV and error variance

variance within: includes only error variance

Question 7

partitioning the variance

Answer 7

1. calculates the means for each IV level
2. calculates the grand mean (sum of IV levels, divided by the number of IV levels)
3. calculates within IV lvls variance (sum of squared differences between individual values and the corresponding IV level mean)
4. calculates the between IV levels variance (sum of squared differences between each IV level mean and the grand mean)

Question 8

assumptions: independent one-way ANOVA

Answer 8

• normality: the DV should be normally distributed, under each level of the IV
• homogeneity of variance: the variance in the DV, under each level of the IV, should be (reasonably) equivalent (SPSS checks with levenes test, welch F statistic can correct for this)
• equivalent sample size: sample size under each level of the IV should be roughly equal
• independence of observations: scores under each level of the IV should be independent

if our data seriously violate these assumptions we should use the non-parametric equivalent - Kruskal Wallis Test

Question 9

equality of variance

Answer 9

homogenous - the same
heterogenous - different

levenes:
- null - there is no difference between the variance under each level of the IV (homogeneity)
- if P < (or equal) .05 we reject null (heterogeneity)
(report result of Welch’s F test instead of ANOVA F)

Question 10

unequal variances

Answer 10

where the assumption of homogeneity of variance has been violated we should report the result the result of Welch’s F test instead of ANOVA F

Question 11

model sum of squares (SSm)

Answer 11

sum of squared differences between IV level means and grand mean (i.e. between IV level variance)

in SPSS SSm can be found in a table in the grid - sum of squares x between groups

SSm + SSr = SSt

Question 12

residual sum of squares (SSr)

Answer 12

sum of squared differences between individual values and corresponding IV level mean (i.e. within IV level variance)

in SPSS SSr can be found in a table in the grid - sum of squares x within groups

SSr + SSm = SSt

Question 13

model mean square (MSm)

Answer 13

MSm = SSm/DFm
relates to between IV variance
- in SPSS it is in the mean square x between groups grid

F = MSm / MSr

Question 14

residual mean square (MSr)

Answer 14

MSr = SSr / DFr
relates to within IV variance
- in SPSS it is in the mean square x within groups grid

F = MSm / MSr

Question 15

df for independent 1 way ANOVA

Answer 15

need to calculate df for our estimates of :
- between IV level (model) variance
- within IV level (error/residual) variance
N = total sample size, k = IV level no.

between IV:
DFm = k - 1

within IV:
DFr = N - k

Question 16

post-hoc tests

Answer 16

• secondary analyses used to assess which IV level mean pairs differ
• only used when the F-value is significant
• run as t-test but include correction for multiple comparisons
• choice of corrections, vary in their risk of type 1 and type 2 error

Question 17

bonferri test (post-hoc)

Answer 17

type 1 error risk: very low

type 2 error risk: very high

classification: “very conservative”

Question 18

least significant difference (LSD), post-hoc

Answer 18

type 1 error risk: high

type 2 error risk: low

classification: liberal

Question 19

tukey honestly significant difference (HSD), post-hoc

Answer 19

type 1 error risk: low

type 2 error risk: high

classification: “reasonably conservative)

Question 20

2 effect sizes in ANOVA

Answer 20

partial n^2: how much variance in the DV is explained by the manipulation of the IV overall

cohen’s d: the magnitude of the difference between pairs of IV level means, expressed in SD units

Question 21

partial n (eta) ^2

Answer 21

small > .01
medium > .06
large >.14

partial n^2 = SSm / SSm + SSr