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![Page 1: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/1.jpg)
Sampling DistributionUsing the Z-table
![Page 2: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/2.jpg)
Review: on using TI-84 Find the area of the following normal
distribution using the Z table
1. z > 2.85
2. z < 2.85
3. z > -1.66
4. -1.66< z <2.85
Syntax: 2nd>vars>normalcdf>min,max,0,1)
+infinity=1EE99-infinity=-1EE99
0.0022
0.9978
0.9515
0.9493
![Page 3: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/3.jpg)
Review: on using TI-84 Find the area of the following normal
distribution using the Z table
Syntax: 2nd>vars>normalcdf>min,max,mean,sd)
+infinity=1EE99-infinity=-1EE99
0.2266
0.2260
0.6915
1. x > 0.40, mean: 0.37, sd: 0.042. 0.40<x< 0.50, mean: 0.37, sd:
0.043. 0.40<x< 0.50, mean: 0.41, sd:
0.02
![Page 4: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/4.jpg)
Sampling distribution of sample proportion
p Count of success in sample
Size of the sample
X
n==
The mean of the sampling distribution is exactly p
p The standard deviation of the sampling
distribution is p
√p(1-p)n
![Page 5: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/5.jpg)
One way of checking the effect of under-coverage, non response, and other sources of error in a sample survey is to compare the sample with the known facts about the population.
ƥ=0.11
ℳ=0.11
σ=0.00808
√p(1-p)nσ=
About 11% of American adults are black, the proportion of blacks in an SRS of 1500 adults should therefore be close to 0.11. It is unlikely to be exactly 0.11 because of sampling variability. If a national sample contains only 9.2% blacks should we suspect the sampling procedure is somehow under-representing blacks?
X=.092
![Page 6: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/6.jpg)
probability
ƥ=0.092
P(ƥ ≤ 0.092)= 0.0129
Only 1.29% of all samples would have so few blacks. Therefore we have a good reason to suspect that the sampling procedure underrepresented blacks.
![Page 7: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/7.jpg)
Rule of Thumb
1. You can only use the formula for the standard deviation of p-hat only when the population is at least 10 times as
large as the sampleN 10n≧
2. Use the normal approximation to the sampling distribution of p-hat for values of n and p that satisfy
np 10≧ and n(1-p) 10≧
![Page 8: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/8.jpg)
Practice: Rule of thumb(s)
Explain why you cannot use the methods in ch9.1 on this problem
A factory employs 3000 unionized workers, of whom 30% are hispanic. The 15-member union executive committee contains 3 hispanics. What would be the probability of 3 or fewer Hispanics
if the executive committee were chosen at random from all the worker.
N 10n≧
3000 10(15)≧
3000 150≧satisfied
np 10≧ and n(1-p) 10≧
15(.30) 10 and 15(1-30) 10≧ ≧4.5 10 and 10.5 10≧ ≧
NOT
satisfied
![Page 9: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/9.jpg)
Mean and Standard Deviation of a sample mean
Mean of sampling distribution: ℳx = ℳStandard Deviation of sampling
distribution: σx = σ / √n
![Page 10: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/10.jpg)
Mean and Standard Deviation of a sample meanInvestors remember 1987 as the year the stocks lost 20% of their value in a single day. For 1987 as a whole, the mean return of all common stocks
on the NYSE was =-3.75% and the standard ℳdeviation of the returns was about σ=26%. What
are the mean and standard deviation of the distribution for all possible samples of 5 stocks?
ℳ= -3.75% or
-.00375
σx = σ / √n
σ= 26 / √5
σ= 11.6376%
![Page 11: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/11.jpg)
Example: Servicing Air conditioners
The average of servicing an air conditioning unit in a certain company is 1 hour with a standard deviation of 1 hour as well. The company has been contracted to maintain 70 of these units in an apartment building. You must schedule technicians’ time for a visit to this building. Is it safe to budget an average of 1.1 hours for each unit? Or should you budget 1.25 hours?
ℳ=1, σ=1Sd=σ/√n
1/√70=0.120hrs
![Page 12: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/12.jpg)
ℳ=1 hr. σ=.120 hr.
N(1, .120)
normalcdf(1.1 , +∞ , 1, .120)
P(x-bar>1.1 hrs.) P(x-bar>1.25 hrs.)
= 0.2033
normalcdf(1.25 , +∞ , 1, .120)
= 0.0182
If you budget 1.1 hrs, there is a 20% chance that the
technicians will not be able to complete the work
If you budget 1.25 hrs, there is a 2% chance that the technicians will not be able to complete the work
![Page 13: Sampling Distribution Using the Z-table. Review: on using TI-84 Find the area of the following normal distribution using the Z table 1. z > 2.85 2. z.](https://reader035.fdocuments.us/reader035/viewer/2022062511/551660ac5503469d698b513d/html5/thumbnails/13.jpg)
What you should have learned
1. Identify parameters and statistics in sample
experiment.
2. Recognize the fact of sampling variability.
3. Interpreting sampling distribution.
4. Describe the bias and variability of statistic in
terms of the mean and its spread.
5. Understand the variability of a statistic.
Statistic from larger samples are less variable.
A. Sampling Distribution
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1. Recognize when a problem involves a sample
proportion ƥ
2. Find the mean and standard deviation of
sampling distribution
3. Know that as the spread gets smaller the
sample size gets bigger.
4. Recognize a reliable conclusion by verifying the
rule of thumbs: N≥10n and np≥10, nq≥10
B. Sample Proportions
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1. Recognize when a problem involves the mean of
the sample. (x-bar)
2. Find the mean and sd of the sampling
distribution when the and σ of the population ℳare known.
3. Know that as the spread gets smaller the
sample size gets bigger
4. X-bar is approximately Normal when the
sample size is large (CLT)
C. Sample Means