Stat 2.1 HW

Identify the lower class limits​ (in 1000 ​cells/μ​L). Blood Platelet Count of Males ​(1000 ​cells/μ​L) 0​-99 100​-199 200​-299 300​-399 400​-499 500​-599 600​-699 Frequency 2 53 81 14 0 0 1

0, 100, 200, 300, 400, 500, 600

The following data show the ages of recent​ award-winning male actors at the time when they won their award. Make a frequency table for the​ data, using bins of​ 20-29, 30-39, and so on. 39, 34, 41, 31, 56, 44, 49, 67, 20, 53, 35, 42, 73, 49, 40, 34, 41, 35, 49, 58, 42, 31, 47, 62, 36, 36, 58, 49, 44, 70, 47, 54, 33, 37 No. of actors ​20-29 ​30-39 ​40-49 ​50-59 ​60-69 ​70-79

1 11 13 5 2 2

Identify the class width. Blood Platelet Count of Males ​(1000 ​cells/μ​L) 100​-199 200​-299 300​-399 400​-499 500​-599 600​-699 Frequency 26 92 27 1 4

100

Identify the class width​ (in 1000 ​cells/μ​L). Blood Platelet Count of Males ​(1000 ​cells/μ​L) 0​-99 100​-199 200​-299 300​-399 400​-499 500​-599 600​-699 Frequency 2 53 81 14 0 0 1

100

Identify the lower class limits. Blood Platelet Count of Males ​(1000 ​cells/μ​L) 100​-199 200​-299 300​-399 400​-499 500​-599 600​-699 Frequency 26 92 27 1 4

100, 200, 300, 400, 500

Weights of statistics students were obtained by a teacher as part of an experiment conducted for the class. The last digit of those weights are listed below. Construct a frequency distribution with 10 classes. 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 2, 3, 3, 3, 4, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 6, 6, 8, 8, 9, 9 Last Digit 0 1 2 3 4 5 6 7 8 9

8 2 1 3 1 10 2 0 2 2

A frequency table of grades has five classes​ (A, B,​ C, D,​ F) with frequencies of 4​, 15​, 18​, 5​, and 3 respectively. Using​ percentages, what are the relative frequencies of the five​ classes? A: 4 B: 15 C: 18 D: 5 F: 3

8.89% 33.33% 40% 11.11% 6.67%

Identify the upper class limits​ (in 1000 ​cells/μ​L). Blood Platelet Count of Males ​(1000 ​cells/μ​L) 0​-99 100​-199 200​-299 300​-399 400​-499 500​-599 600​-699 Frequency 2 53 81 14 0 0 1

99, 199, 299, 399, 499, 599, 699

Identify the class boundaries. Blood Platelet Count of Males ​(1000 ​cells/μ​L) 100​-199 200​-299 300​-399 400​-499 500​-599 600​-699 Frequency 26 92 27 1 4

99.5, 199.5, 299.5, 399.5, 499.5, 599.5

Construct the cumulative frequency distribution for the given data. Age​ (years) of Best Actress when award was won v frequency ​20-29L: 25 ​30-39: 36 ​40-49: 12 ​50-59: 2 ​60-69: 6 ​70-79: 1 ​80-89: 1

Age​ (years) of Best Actress when award was won v Cumulative Frequency Less than 30: 25 Less than 40: 61 Less than 50: 73 Less than 60: 75 Less than 70: 81 Less than 80: 82 Less than 90: 83

Among fatal plane crashes that occurred during the past 55 ​years, 563 were due to pilot​ error, 52 were due to other human​ error, 322 were due to​ weather, 79 were due to mechanical​ problems, and 428 were due to sabotage. Construct the relative frequency distribution.

Cause v Relative Frequency Pilot error: 39​% Other human error: 3.6​% Weather: 22.3​% Mechanical problems: 5.5​% Sabotage: 29.6​%

Construct the cumulative frequency distribution for the given data. Daily Low ​(°​F) v Frequency ​35-39: 2 ​40-44: 4 ​45-49: 6 ​50-54: 9 ​55-59: 5 ​60-64: 5 ​65-69: 1

Daily Low Temperature ​(°​F) v Cumulative Frequency Less than 40: 2 Less than 45: 6 Less than 50: 12 Less than 55: 21 Less than 60: 26 Less than 65: 31 Less than 70: 32

Use the given categorical data to construct the relative frequency distribution. Natural births randomly selected from four hospitals in a highly populated region occurred on the days of the week​ (in the order of Monday through​ Sunday) with the frequencies 52​, 66​, 68​, 55​, 63​, 44​, 52.

Day v Relative Frequency Monday: 13​% Tuesday: 16.5​% Wednesday: 17​% Thursday: 13.75​% Friday: 15.75​% Saturday: 11​% Sunday: 13​%

A​ _______ helps us understand the nature of the distribution of a data set.

Frequency Distribution

Does the frequency distribution appear to have a normal distribution using a strict interpretation of the relevant​ criteria? Temperature ​(°​F) 35-39 40-44 45-49 50-54 55-59 60-64 65-69 Frequency 3 0 6 14 7 5 1

No, the distribution does not appear to be normal

Weights of statistics students were obtained by a teacher as part of an experiment conducted for the class. The last digit of those weights are listed below. 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 2, 3, 3, 3, 4, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 6, 6, 8, 8, 9, 9 Based on the​ distribution, do the weights appear to be reported or actually​ measured?

The weights appear to be reported because there are disproportionately more 0s and 5s.

Weights of statistics students were obtained by a teacher as part of an experiment conducted for the class. The last digit of those weights are listed below. 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 2, 3, 3, 3, 4, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 6, 6, 8, 8, 9, 9 What can be said about the accuracy of the​ results?

They are likely not very accurate because they appear to be reported.

Which characteristic of data is a measure of the amount that the data values​ vary?

Variation

Does the frequency distribution appear to have a normal​ distribution? Explain. Temperature ​(°​F) 35-39 40-44 45-49 50-54 55-59 60-64 65-69 Frequency 1 4 9 15 9 2 1

Yes, because the frequencies start​ low, proceed to one or two high​ frequencies, then decrease to a low​ frequency, and the distribution is approximately symmetric.

Let the frequencies be substantially different if any frequency is at least twice any other frequency. Does it appear that these births occur on the days of the week with equal​ frequency? Natural births randomly selected from four hospitals in a highly populated region occurred on the days of the week​ (in the order of Monday through​ Sunday) with the frequencies 52​, 66​, 68​, 55​, 63​, 44​, 52.

Yes, it appears that births occur on the days of the week with frequencies that are about the same.

Class width is found by​ _______.

subtracting a lower class limit from the next consecutive lower class limit

Heights of adult males are known to have a normal distribution. A researcher claims to have randomly selected adult males and measured their heights with the resulting relative frequency distribution as shown here. Identify two major flaws with these results. Height (cm) 130-144 145-159 160-174 175-189 190-204 Relative Frequency 24% 26% 21% 27% 29%

- The sum of the relative frequencies is 127​%, but it should be​ 100%, with a small possible​ round-off error. - All of the relative frequencies appear to be roughly the same. If they are from a normal​ distribution, they should start​ low, reach a​ maximum, and then decrease.

Identify the class boundaries​ (in 1000 ​cells/μ​L). Blood Platelet Count of Males ​(1000 ​cells/μ​L) 0​-99 100​-199 200​-299 300​-399 400​-499 500​-599 600​-699 Frequency 2 53 81 14 0 0 1

0, 99.5, 199.5, 299.5, 399.5, 499.5, 599.5, 699.5

Identify the class midpoints. Blood Platelet Count of Males ​(1000 ​cells/μ​L) 100​-199 200​-299 300​-399 400​-499 500​-599 600​-699 Frequency 26 92 27 1 4

149.5, 249.5, 349.5, 449.5, 549.5

Identify the number of individuals included in the summary. Blood Platelet Count of Males ​(1000 ​cells/μ​L) 100​-199 200​-299 300​-399 400​-499 500​-599 600​-699 Frequency 26 92 27 1 4

150

Identify the number of individuals included in the summary. Blood Platelet Count of Males ​(1000 ​cells/μ​L) 0​-99 100​-199 200​-299 300​-399 400​-499 500​-599 600​-699 Frequency 2 53 81 14 0 0 1

151

Identify the upper class limits. Blood Platelet Count of Males ​(1000 ​cells/μ​L) 100​-199 200​-299 300​-399 400​-499 500​-599 600​-699 Frequency 26 92 27 1 4

199, 299, 399, 499, 599

The data represents the daily rainfall​ (in inches) for one month. Construct a frequency distribution beginning with a lower class limit of 0.00 and use a class width of 0.20. 0.37, 0, 0, 0, 0.21, 0, 0.15, 0, 0.01, 0.07, 0.57, 0, 0, 0.18, 0, 0.26, 0, 0.42, 0, 1.33, 0, 0, 0.16, 0, 0.02, 0, 0.27, 0, 0.11, 0 Daily Rainfall ​(in inches) 0.00-0.19 0.20-0.39 0.40-0.59 0.60-0.79 0.80-0.99 1.00-1.19 Find the frequency.

23 4 2 0 0 0 1

The data represents the body mass index​ (BMI) values for 20 females. Construct a frequency distribution beginning with a lower class limit of 15.0 and use a class width of 6.0. 17.7, 27.7, 19.2, 27.8, 33.5, 23.8, 21.6, 44.9, 26.3, 18.3, 24.6, 31.2, 22.9, 28.5, 37.7, 26.6, 23.3, 21.6, 39.1, 24.7 BMI 15.0-20.9 21.0-26.9 27.0-32.9 33.0-38.9 39.0-44.9

3 9 4 2 2

Identify the class midpoints​ (in 1000 ​cells/μ​L). Blood Platelet Count of Males ​(1000 ​cells/μ​L) 0​-99 100​-199 200​-299 300​-399 400​-499 500​-599 600​-699 Frequency 2 53 81 14 0 0 1

49.5, 149.5, 249.5, 349.5, 449.5, 549.5, 649.5

Refer to the table summarizing service times​ (seconds) of dinners at a fast food restaurant. How many individuals are included in the​ summary? Time (sec) 60-119 120-179 180-239 240-299 300-359 Frequency 9 23 14 2 5

53

Does the frequency distribution appear to be roughly a normal​ distribution? The data represents the daily rainfall​ (in inches) for one month. Construct a frequency distribution beginning with a lower class limit of 0.00 and use a class width of 0.20. 0.37, 0, 0, 0, 0.21, 0, 0.15, 0, 0.01, 0.07, 0.57, 0, 0, 0.18, 0, 0.26, 0, 0.42, 0, 1.33, 0, 0, 0.16, 0, 0.02, 0, 0.27, 0, 0.11, 0 Daily Rainfall ​(in inches) 0.00-0.19 0.20-0.39 0.40-0.59 0.60-0.79 0.80-0.99 1.00-1.19

No, the distribution is not symmetric and the frequencies do not start off low.

Is it possible to identify the exact values of all of the original service​ times? Time (sec) 60-119 120-179 180-239 240-299 300-359 Frequency 9 23 14 2 5

No. The data values in each class could take on any value between the class​ limits, inclusive.

​_______ are sample values that lie very far away from the majority of the other sample values.

Outliers

Among fatal plane crashes that occurred during the past 55 ​years, 563 were due to pilot​ error, 52 were due to other human​ error, 322 were due to​ weather, 79 were due to mechanical​ problems, and 428 were due to sabotage. What is the most serious threat to aviation​ safety, and can anything be done about​ it?

Pilot error is the most serious threat to aviation safety. Pilots could be better trained.

Construct one table that includes relative frequencies based on the frequency distributions shown​ below, then compare the amounts of tar in nonfiltered and filtered cigarettes. Tar​ (mg) in Nonfiltered Cigarettes 18-23: 2 24-29: 2 30-35: 13 36-41: 7 42-47: 1 Tar​ (mg) in Filtered Cigarettes 6-11: 1 12-17: 2 18-23: 7 24-29: 15

Relative Frequency ​(Nonfiltered) vs Relative Frequency ​(Filtered) (percentages) 6−11: 0 v 4 12−17: 0 v 8 18−23: 8 v 28 24−29: 8 v 60 30−35: 52 v 0 36−41: 28 v 0 42−47: 4 v 0

In a​ _______ distribution, the frequency of a class is replaced with a proportion or percent.

Relative frequency