Title: Inference Confidence intervals for the mean
1Inference Confidence intervals for the mean
Population Mean - µ
Sample mean X
2Point estimate for µ
Example Unknown µ-mean SAT score of
students In a random sample of n75
students 515
3Limitations of point estimator
- How reliable is this estimate?
- What value do we expect to get in another sample?
- An estimate without and indication of its
variability is of little value!!! We would like
to know precisely how far tends to be from
the parameter of interest µ.
4Interval estimate for µ
- Specify an interval in which you think µ lies.
- We want to say something such as
- We are 95 confident that µ is between 505 and
515
5- According to the Central Limit Theorem
- is approximately normal for large n
-
-
-
Standard error of
(1-a) confidence interval
(1-a)
a/2
a/2
Z 1-a/2
Z a/2
µ
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7Example
- Suppose a student measuring the boiling
temperature of a certain liquid observes the
readings (in degrees Celsius) 102.5, 101.7,
103.1, 100.9, 100.5, and 102.2 on 6 different
samples of the liquid. He calculates the sample
mean to be 101.82. If he knows that the standard
deviation for this procedure is 1.2 degrees, what
is the confidence interval for the population
mean at a 90 confidence level? - 1-a0.9
-
8- (b) A confidence interval of 95 level would be
- (i) wider than a confidence interval of 90
level - (ii) narrower than a confidence interval of 90
level - (c) Give a 95 confidence interval for the
population mean
95 confidence interval for
100.86,102.78
9http//bcs.whfreeman.com/ips4e/pages/bcs-main.asp?
vcategorys00010n99000i99010.01o
10Population mean 8, Population SD 5
- Sample 1
- 1,1,2,2,4,4,4,5,6,7,7,7,8,8,9,9,11,11,13,13,14,14,
15,16,16 - Mean 8.32, SD4.74
- Sample 2 Mean6.76, SD 4.73
- Sample 3 Mean8.48, SD 5.27
- Sample 4
- -3,-3,-2,0,1,2,2,4,4,5,7,7,9,9,10,10,10,
- 11,11,12,12,14,14, 14, 19
- Mean 7.16, SD5.93
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12Practice Confidence Intervals
- 1. A manufacturer of pharmaceutical products
analyzes a specimen from each batch of a product
to verify the concentration of the active
ingredient. The chemical analysis is not
perfectly precise. Repeated measurements on the
same specimen give slightly different results.
The results of repeated measurements follow a
normal distribution quite closely. The mean µ of
the population of all measurements is the true
concentration in the specimen. The standard
deviation of this distribution is known to be s
0.0068 grams per liter. The laboratory analyzes
each specimen three times and reports the mean
result. Three analyses of one specimen give the
following concentrations. 0.8403 0.8363
0.8447. Give a 95 confidence interval for the
true concentration.
0.8327,0.8481
13- 2. Suppose that we conduct a survey of 19
millionaires to find out what percent of their
income the average millionaire donates to
charity. Â It is known that the standard deviation
of the percent they donate to charity is 5. In
the sample we discover that the mean percent is
15. Â Find a 95 confidence interval for the mean
percent.
0.128,0.173
14- 3. An agricultural researcher plants 25 plots
with a new variety of corn. The average yield for
these plots is 150 bushels per Acre.
Assume that the yield per acre for the new
variety of corn follows a normal distribution
with unknown µ and standard deviation s10
bushels per acre. A 90 confidence interval for µ
is - (a) 1502.00
- (b) 1503.29
- (c) 1503.92
- (d) 15032.9
15- Which of the following will produce a narrower
confidence interval than the 90 confidence
interval that you computed above? - (a) Plant only 5 plots rather than 25
- (b) Plant 100 plots rather than 25
- (c) Compute a 99 confidence interval rather than
a 90 confidence interval. - (d) None of the above
16- 4.You measure the weight of a random sample of 25
male runners. The sample mean is 60
kilograms (kg). Suppose that the weights of male
runners follow a normal distribution with unknown
mean µ and standard deviation s5 kg. A 95
confidence interval for µ is - (a) 59.61,60.39
- (b) 59,61
- (c) 58.04,61.96
- (d) 50.02,69.8
17- Supposed I had measured the weights of a
random sample of 100 runners rather than 25
runners. Which of the following statements is
true? - (a) The lengths of the confidence interval would
increase - (b) The lengths of the confidence interval would
decrease - (c) The lengths of the confidence interval would
stay the same
18- 5. You plan to construct a confidence interval
for the mean µ of a normal population with known
standard deviation s. Which of the following will
reduce the size of the confidence interval? - use a lower level of confidence
- Increase the sample size
- Reduce s
- All the above
19Finding n for a specified confidence interval
Suppose we want a specific interval with a
confidence level 1-a. What sample size should be
taken to obtain this CI? Define m the distance
from the mean to the upper/lower limit of the CI
(half the length of the CI)
For the blood potassium example m3.5-3.40.1
20Example
- A test for the level of potassium in the blood
is not perfectly precise. Moreover, the actual
level of potassium in a persons blood varies
slightly from day to day. Suppose that repeated
measurements for the same person on different
days vary normally with 0.2. - Julies potassium level is measured three times
and the mean result is . Give a 99 confidence
interval for Julies mean blood potassium level.
99 confidence interval for µ
3.1,3.7
21Example
- (b) Julie wants a 99 confidence interval of
3.3, 3.5. What sample size should she take to
achieve this (how many times should she measure
her potassium blood level?) - For the blood potassium example
m____________
0.1
she needs 27 blood tests to achieve a 99 CI
3.3,3.5.
223.3,3.53.4Z0.995(0.2/vn) 3.4-Z0.995(0.2/vn)
3.3 3.4Z0.995(0.2/vn)3.5 solve for
n subtract the first equation from the second ?
2Z0.995(0.2/vn)0. 2 Z0.995(0.2/vn)0.1
2.575(0.2/vn)0.1 (0.2/vn)0.0388 vn5.15
? n26.5225 she needs 27 blood tests to achieve
a 99 CI 3.3,3.5.
23Practice
- 1. Suppose we wanted a 90 confidence interval
of length 4 for the average amount spent on
books by freshmen in their first year at a major
university. The amount spent has a normal
distribution with s30. - The number of observations required is closest
to - 25
- 30
- 609
- 865
24- mhalf of the CI length (marginal error)
- m
- a
4/22
0.1
25- 2. The heights of young American women, in
inches, are normally distributed with mean µ and
standard deviation s2.4. I select a simple
random sample of four young American women and
measure their heights. The four heights, in
inches, are - 63 69 62 66
-
- Based on these data, a 99 confidence interval
for µ, in inches, is - (a) 651.55
- (b) 652.35
- (c) 653.09
- (d) 654.07
26- Mean of four heights
- CI
- CI61.91,68.09
27- If I wanted the 99 confidence interval to be
1 inch from the mean, I should select a simple
random sample of size - 2
- 7
- 16
- 39
28- mhalf of the CI length (marginal error)
- m
- a
1
0.01