use the relative frequency histogram below to complete each part identify the class with the greatest...

Construct a frequency distribution and a frequency histogram for the data set using the indicated number...

Construct a frequency distribution and a frequency histogram for the data set using the indicated number of classes. Describe any patterns. Number of​ classes: 8 Data​ set: Finishing times​ (in seconds) of 20 male participants in a 5K race Construct a frequency distribution of the data. Use the minimum data entry as the lower limit of the first class. Construct a frequency histogram of the data. Describe any patterns. Choose the correct answer below. A. the classes with the greatest...

Create a frequency table and a histogram for each of the data sets from Part 2....

Create a frequency table and a histogram for each of the data sets from Part 2. Below are two links explaining how to use Excel to create frequency tables and histrograms. Using Excel for Data and Tables Create a Histogram From a Frequency Table 1) Data Set 1: 23, 26, 50, 39, 55, 64, 50, 10, 42, 35, 51, 42, 43, 56, 64, 48, 48, 57, 27, 37 a. List the data values in order from lowest to highest. b....

Complete the tasks and answer the questions below. a. Create a frequency distribution and a histogram...

Complete the tasks and answer the questions below. a. Create a frequency distribution and a histogram for the set. b. Why did you select the class interval you used? c. Is this distribution skewed? How do you know? Class interval Frequency 55- 59 7 50- 54 5 45-49 5 40-44 7 35- 39 2 30- 34 3 25- 29 5 20- 24 4 15- 19 5 10- 14 3 5-9 3 0-4 1

Complete the table below. Books read within the past year Frequency Relative Frequency Cumulative Relative Frequency...

Complete the table below. Books read within the past year Frequency Relative Frequency Cumulative Relative Frequency none 7 1−5 0.211267605633803 6−10 16 11−15 0.183098591549296 16−20 13 21−25 7 Total 1

Construct a frequency distribution for the given data set using 6 classes. In the​ table, include...

Construct a frequency distribution for the given data set using 6 classes. In the​ table, include the​ midpoints, relative​ frequencies, and cumulative frequencies. Which class has the greatest frequency and which has the least​ frequency? Amount (in dollars) spent on books for a semester 416 459 396 170 251 531 387 466 506 326 223 291 362 300 152 415 390 285 50 395 257 200 162 129 494 294 185 330 445 Complete the​ table, starting with the lowest...

Complete the given relative frequency distribution. Outcome     1         2         3         4  &

Complete the given relative frequency distribution. Outcome     1         2         3         4         5     Rel. Frequency 0.4 0.1 0.3 0.1 Compute the relative frequencies. (a)     P({2, 3, 4}) (b)     P(E') where E = {3, 4}

Finish times (to the nearest hour) for 10 dogsled teams are shown below. Make a frequency...

Finish times (to the nearest hour) for 10 dogsled teams are shown below. Make a frequency table showing class limits, class boundaries, midpoints, frequency, relative frequencies, and cumulative frequencies. Use three classes. (Round your answer for relative frequency to the nearest hundredth and for midpoint to the nearest tenth.) 236 263 273 283 239 280 270 310 259 310

The data represent the​ time, in​ minutes, spent reading a political blog in a day. Construct...

The data represent the​ time, in​ minutes, spent reading a political blog in a day. Construct a frequency distribution using 55 classes. In the​ table, include the​ midpoints, relative​ frequencies, and cumulative frequencies. Which class has the greatest frequency and which has the least​ frequency? 19 23 25 0 10 7 9 27 18 10 13 1 7 28 21 29 9 8 24 5 Complete the​ table, starting with the lowest class limit. ​(Simplify your​ answers.) Class Frequency Midpoint...

Construct one table that includes relative frequencies based on the frequency distributions shown​ below, then compare...

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. Do the cigarette filters appear to be​ effective? (Hint: The filters reduce the amount of tar ingested by the​ smoker.) Tar​ (mg) in Nonfiltered Cigarettes Frequency Tar​ (mg) in Filtered Cigarettes Frequency 14minus−18 2 4minus−8 1 19minus−23 0 9minus−13 2 24minus−28 15 14minus−18 5 29minus−33 7 19minus-23 17 34minus−38 1 Complete the relative frequency table...

Consider the following cumulative frequency distribution: Class Limits Cumulative Frequency (within or below the class) 0...

Consider the following cumulative frequency distribution: Class Limits Cumulative Frequency (within or below the class) 0 – under 5 10 5 – under 10 15 10 - under 15 21 15 – under 20 29 20 – under 25 36 What is the cumulative relative frequency for the class "15 - under 20" ? a. 58.3 % b. 75 % c. 19.4 % d. 80.6% e. 22.2 %