feee Video lecture in India
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Comparing Two Groups’ Means or Proportions
Independent Samples t-tests
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ReviewConfidence Interval for a MeanSlap a sampling distribution* over a
sample mean to determine a range in which the population mean has a particular probability of being—such as 95% CI.
If our sample is one of the middle 95%, we know that the mean of the population is within the CI.
Y-bar
95% CI: Y-bar +/- 1.96 *(s.e.)
2.5% 2.5%
Significance Test for a MeanSlap a sampling distribution* over a
guess of the population mean to determine if the sample has a very low probability of having come from a population where the guess is true—such as α-level = .05.
If our sample mean is in the outer 5%, we know to reject the guess, our sample has a low chance of having come from a population with the mean we guessed.
*sampling distribution: the way statistics for samples of a certain size would stack up or be distributed after all possible samples are collected
µ?2.5% 2.5%
Y-bar?
µo=guess
z or t = (Y-bar - µo)/ s.e.
Y-bar?
-1.96z +1.96z-1.96z +1.96z
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ReviewLet’s collect some data on educational aspirations and produce a 95% confidence interval to tell us
where the population parameter likely falls and then let’s do a test of significance where we guess that average aspiration will be 16 years.
I collected a sample of 625 kids who reported their educational aspirations where 12 = high school, 16 equals 4 years of college and so forth. The average for the sample was 15 years with a standard deviation of 2 years.
95% confidence interval 95% CI = Sample Mean +/- z * s.e.
1. Find the standard error of the sampling distribution: s / n = 2/√625 = 2/25 = 0.08
2. Build the width of the Interval. 95% corresponds with a z of +/- 1.96. +/- z * s.e = 1.96 * 0.08 = 0.157
3. Insert the mean to build the interval: 95% CI = Sample Mean +/- z * s.e = 15 +/- 0.157
The interval: 14.84 to 15.16
We are 95% confident that the population mean falls between these values. (What does this say about my guess???)
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ReviewLet’s collect some data on educational aspirations and produce a 95% confidence interval to tell us where
the population parameter likely falls and then let’s do a test of significance where we guess that average aspiration will be 16 years.
I collected a sample of 625 kids who reported their educational aspirations where 12 = high school, 16 equals 4 years of college and so forth. The average for the sample was 15 years with a standard deviation of 2 years.
Significance Test z or t = (Y-bar - µo)/ s.e.
1. Decide -level ( = .05) and nature of test (two-tailed)2. Set critical z or t: (+/- 1.96) 3. Make guess or null hypothesis,
Ho: = 16Ha: 16
4. Collect and analyze data5. Calculate Z or t: z/t = Y-bar - o (s.e. = s/√n = 2/√625 = 2/25 = .08) s.e.
z/t = (15 – 16)/.08 = -1/.08 = -12.56. Make a decision about the null hypothesis (reject the null: -12.5 < -1.96)7. Find the P-value (look up 12.5 in z or t table). P < .0001
It is extremely unlikely that our sample came from a population where the mean is 16.video.edhole.com
Comparing Two GroupsWe’re going to move forward to more
sophisticated statistics, building on what we have learned about confidence intervals and significance tests.
Sociologists look for relationships between concepts in the social world.
For example: Does one’s sex affect income?
Focus on the relationship between the concepts: Sex and Income
Does one’s race affect educational attainment?Focus on the relationship between the concepts: Race and Educational Attainment
I love sophisticated
statistics!
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Comparing Two GroupsIn this section of the course, you will learn ways to infer from a sample
whether two concepts are related in a population.
Independent variable (X): That which causes another variable to change when it changes.
Dependent variable (Y): That which changes in response to change in another variable.
X Y(X= Sex or Race) (Y= Income or Education)
The statistical technique you use will depend of the level of measurement of your independent and dependent variables—the statistical test must match the variables!
Levels of Measurement: Nominal, Ordinal, Interval-Ratiovideo.edhole.com
Comparing Two Groups
The test you choose depends on level of measurement:
Independent Dependent Statistical Test
Dichotomous Interval-ratio Independent Samples t-testDichotomous
Nominal Nominal Cross TabsOrdinal OrdinalDichotomous Dichotomous
Nominal Interval-ratio ANOVAOrdinal Dichotomous Dichotomous
Interval-ratio Interval-ratio Correlation and OLS Regression
Dichotomousvideo.edhole.com
Comparing Two Groups
Independent Dependent Statistical Test
Dichotomous Interval-ratio Independent Samples t-test
Dichotomous
An independent samples t-test is concerned with whether a mean or proportion is equal between two groups. For example, does sex affect income?
Women’s mean = Men’s Mean ???
♀ Income ♂ Incomeµ µ
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Comparing Two Groups
Independent Samples t-tests:
Earlier, our focus was on the mean. We used the mean of the sample (statistic) to infer a range for what our population mean (parameter) might be (confidence interval) or whether it was like some guess or not (significance test).
Now, our focus is on the difference in the mean for two groups. We will use the difference of the sample (statistic) to infer a range for what our population difference (parameter) might be (confidence interval) or whether it is like some guess (significance test).
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Comparing Two Groups
The difference will be calculated as such:
D-bar = Y-bar2 – Y-bar1
For example: Average Difference in Income by Sex = Male Average Income – Female Average Income
(What would it mean if men’s income minus women’s income equaled zero?)
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Comparing Two GroupsLike the mean, if one were to take random sample after random sample from
two groups and calculate and record the difference between groups each time, one would see the formation of a Sampling Distribution for D-bar that was normal and centered on the two populations’ difference.
Z -3 -2 -1 0 1 2 3
95% Range
Sampling Distribution of D-bar
average difference between two groups’ samples
=
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Comparing Two Groups
It’s Power Time Again!
Using just a sample, our statistics will allow us to pinpoint the difference between two groups in the population (confidence interval) or to determine whether our sample could have come from a population with a difference between two groups that we guessed (significance test).
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Comparing Two GroupsSo the rules and techniques we learned for means and proportions apply to the
differences in groups’ means and proportions.
One creates sampling distributions to create confidence intervals and do significance tests in the same ways.
However, the standard error of D-bar has to be calculated slightly differently.
For Means: (s1)2 (s2)2
s.e. (s.d. of the sampling distribution) = n1 + n2
For Proportions:
s.e. = 1 (1 - 1) 2 (1 - 2) n1 + n2
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Comparing Two GroupsCalculating a Confidence Interval for the Difference between Two
Groups’ Means
By slapping the sampling distribution for the difference over our sample’s difference between groups, D-bar, we can find the values between which the population difference is likely to be.
95% C.I. = D-bar +/- 1.96 * (s.e.) = (Y-bar2 – Y-bar1) +/- 1.96 * (s.e.)Or = (2 – 1) +/- 1.96 * (s.e.)
99% C.I. = D-bar +/- 2.58 * (s.e.) = (Y-bar2 – Y-bar1) +/- 2.58 * (s.e.)Or = (2 – 1) +/- 2.58 * (s.e.)
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Comparing Two GroupsEXAMPLE:
We want to know what the likely difference is between male and female GPAs in a population of college students with 95% confidence.
Sample: 50 men, average gpa = 2.9, s.d. = 0.5 50 women, average gpa = 3.1, s.d. = 0.4
95% C.I. = Y-bar2 – Y-bar1 +/- 1.96 * s.e.
1. Find the standard error of the sampling distribution: s.e. = (.5)2/ 50 + (.4)2/50 = .005 + .003 = .008 = 0.089
2. Build the width of the Interval. 95% corresponds with a z or t of +/- 1.96. +/- z * s.e = +/- 1.96 * 0.089 = +/- 0.174
3. Insert the mean difference to build the interval: 95% C.I. = (Y-bar2 – Y-bar1) +/- 1.96 * s.e. = 3.1 - 2.9 +/- 0.174 = 0.2 +/- 0.174
The interval: 0.026 to 0.374
We are 95% confident that the difference between men’s and women’s GPAs in the population is between .026 and 0.374.
If we had guessed zero difference, would the difference be a significant difference?video.edhole.com
Comparing Two GroupsConducting a Test of Significance for the Difference between Two Groups’
Means
By slapping the sampling distribution for the difference over a guess of the difference between groups, Ho, we can find out whether our sample could have been drawn from a population where the difference is equal to our guess.
1. Two-tailed significance test for -level = .052. Critical z or t = +/- 1.963. To find if there is a difference in the population,
Ho: 2 - 1 = 0Ha: 2 - 1 0
4. Collect Data5. Calculate z or t: z or t = (Y-bar2 – Y-bar1) – (2 - µ1) s.e.6. Make decision about the null hypothesis (reject or fail to reject)7. Report P-valuevideo.edhole.com
Comparing Two GroupsEXAMPLE:We want to know whether there is a difference in male and female GPAs in a population of college
students.
1. Two-tailed significance test for -level = .052. Critical z or t = +/- 1.963. To find if there is a difference in the population,
Ho: 2 - 1 = 0Ha: 2 - 1 0
4. Collect DataSample: 50 men, average gpa = 2.9, s.d. = 0.5
50 women, average gpa = 3.1, s.d. = 0.4
s.e. = (.5)2/ 50 + (.4)2/50 = .005 + .003 = .008 = 0.089
5. Calculate z or t: z or t = 3.1 – 2.9 – 0 = 0.2 = 2.25 0.089 0.0896. Make decision about the null hypothesis: Reject the null. There is enough difference between
groups in our sample to say that there is a difference in the population. 2.25 >1.967. Find P-value: p or (sig.) = .01228. We have a 1.2 % chance that the difference in our sample could have come from a population
where there is no difference between men and women. That chance is low enough to reject the null, for sure!
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Comparing Two Groups
The steps outlined above for
Confidence intervals
And
Significance tests
for differences in means are the same you would use for differences in proportions.
Just note the difference in calculation of the standard error for the difference.
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Comparing Two Groups
• Now let’s do an example with SPSS, using the General Social Survey.
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