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Remember:
yxyx
22
yxyx
We will be
interested in
the difference of means, so we
will use this to
find standard error.
Suppose we have a population of adult men with a mean height of 71 inches and standard deviation of 2.6 inches. We also have a population of adult women with a mean height of 65 inches and standard deviation of 2.3 inches. Assume heights are normally distributed.
Describe the distribution of the difference in heights between males and females (male-female).Normal distribution withx-y =6 inches & x-y =3.471 inches
a) What is the probability that the height of a randomly selected man is at most 5 inches taller than the height of a randomly selected woman?
b) What is the 70th percentile for the difference (male-female) in heights of a randomly selected man & woman?
P((xM-xF) < 5) = normalcdf(-∞,5,6,3.471) = .3866
(xM-xF) = invNorm(.7,6,3.471) = 7.82
Do calculator Do calculator simulation!simulation!a) What is the probability that the
mean height of 30 men is at most 5 inches taller than the mean height of 30 women?
b) What is the 70th percentile for the difference (male-female) in mean heights of 30 men and 30 women?
Two-Sample Procedures with
means• The goal of these inference procedures is to compare the responses to two treatmentstwo treatments or to compare the characteristics of two populationstwo populations.
• We have INDEPENDENT samples from each treatment or population
When we compare, what are
we interested
in?
Assumptions:• Have two SRS’stwo SRS’s from the
populations or two randomly two randomly assignedassigned treatment groups
• Samples are independent• Both distributions are
approximately normal– Have large sample sizes– Graph BOTH sets of data
• ’’ss unknown
Degrees of FreedomOption 1: use the smaller of the
two values n1 – 1 and n2 – 1
This will produce conservative This will produce conservative results – higher p-values & results – higher p-values & lower confidence.lower confidence.
Option 2: approximation used by technology
2
2
2
21
2
1
1
2
2
2
2
1
2
1
11
11
ns
nns
n
ns
ns
df
Calculator does this
automatically!
Confidence intervals:
statistic of SD valuecritical statisticCI
21xx *t
2
2
2
1
2
1
n
s
n
s
Called standard
error
Pooled procedures:
• Used for two populations with the samesame variance
• When you pool, you average the two-sample variances to estimate the common population variance.
• DO NOT use on AP Exam!!!!!We do NOT know the variances of the population,
so ALWAYS tell the calculator NO for pooling!
Two competing headache remedies claim to give fast-acting relief. An experiment was performed to compare the mean lengths of time required for bodily absorption of brand A and brand B. Assume the absorption time is normally distributed. Twelve people were randomly selected and given an oral dosage of brand A. Another 12 were randomly selected and given an equal dosage of brand B. The length of time in minutes for the drugs to reach a specified level in the blood was recorded. The results follow: mean SD n Brand A
20.1 8.7 12 Brand B18.9 7.5 12
Describe the shape & standard error for sampling distribution of the differences in the mean speed of absorption. (answer on next screen)
Describe the sampling distribution of the differences in the mean speed of absorption.
Find a 95% confidence interval difference in mean lengths of time required for bodily absorption of each brand.
Normal distribution with S.E. = 3.316Normal distribution with S.E. = 3.316
Note: confidence interval statements
•Matched pairs – refer to “mean difference”“mean difference”
•Two-Sample – refer to “difference of means”“difference of means”
Hypothesis Statements:
H0: 1 - 2 = 0
Ha: 1 < 2 < 0
Ha: 1 > 2 > 0
Ha: 1 ≠ 2 ≠ 0
H0: 1 = 2 Be sure to define BOTHBOTH 1 and 2!
Hypothesis Test:
statistic of SD
parameter - statisticstatisticTest
t
2
2
2
1
2
1
2121
ns
nsxx
Since we usually assume H0 is true,
then this equals 0 – so we can usually
leave it out
The length of time in minutes for the drugs to reach a specified level in the blood was recorded. The results follow:
mean SD n Brand A 20.1 8.7 12 Brand B 18.9 7.5 12
Is there sufficient evidence that these drugs differ in the speed at which they enter the blood stream?
Have 2 independent randomly assigned treatments Given the absorption rate is normally distributed ’s unknown
05.53.217210.
361.
125.7
127.8
9.181.2022
2
22
1
21
21
αdfvaluep
ns
ns
xxt
Since p-value > a, I fail to reject H0. There is not sufficient evidence to suggest that these drugs differ in the speed at which they enter the blood stream.
State assumptions!
Formula & calculations
Conclusion in context
H0: A= B
Ha:A= B
Where A is the true mean absorption time for Brand A & B is the true mean absorption time for Brand B
Hypotheses & define variables!
On Calc:Go to Stat – TestInput StatisticsNo PoolingCalculate
Suppose that the sample mean of Brand B is 16.5, then is Brand B faster?
05.53.212896.
085.1
125.7
127.8
5.161.2022
2
22
1
21
21
αdfvaluep
ns
ns
xxt
No, I would still fail to reject the null hypothesis.
Robustness:
• Two-sample procedures are more more robustrobust than one-sample procedures
• BESTBEST to have equal sample sizes! (but not necessary)
A modification has been made to the process for producing a certain type of time-zero film (film that begins to develop as soon as the picture is taken). Because the modification involves extra cost, it will be incorporated only if sample data indicate that the modification decreases true average development time by more than 1 second. Should the company incorporate the modification?
Original 8.6 5.1 4.5 5.4 6.3 6.6 5.7 8.5Modified 5.5 4.0 3.8 6.0 5.8 4.9 7.0 5.7
Assume we have 2 independent SRS of film Both distributions are approximately normal due to approximately symmetrical boxplots ’s unknownH0: O- M = 1
Ha:O- M > 1
Where O is the true mean developing time for original film & M is the true mean developing time for modified film
05.75.
0
80636.1
85146.1
13375.53375.622
2
22
1
21
2121
dfvaluep
ns
ns
xxt
Since p-value > , I fail to reject H0. There is not sufficient evidence to suggest that the company incorporate the modification.