The statistic software output for this problem is:
Mode = 45-49
Median = 52
Mean = 53.3 (take decimal at your choice )
Approximate the measures of center for following GFDT. Frequency ons (0.4/2) 2 [0.6/2] 312/21 412/21 [2/2]...
Approximate the measures of center for following GFDT.DataFrequency40 - 44245 - 49250 - 54755 - 591560 - 641965 - 691170 - 74775 - 79080 - 846mode = median = mean = Report mode and median accurate to one decimal place. Report the mean accurate to two decimal places (or enter as a fraction).
Approximate the measures of center for following GFDT.DataFrequency50 - 541055 - 592360 - 641365 - 691270 - 74575 - 79780 - 84485 - 89090 - 941mode = median = mean = Report mode and median accurate to one decimal place. Report the mean accurate to two decimal places (or enter as a fraction).
Approximate the measures of center for following GFDT. Data Frequency 50 - 54 2 55 - 59 1 60 - 64 3 65 - 69 6 70 - 74 7 75 - 79 11 80 - 84 10 85 - 89 23 90 - 94 14 mode = median = mean = Report mode and median accurate to one decimal place. Report the mean accurate to two decimal places (or enter as a fraction).
Approximate the measures of center for following GFDT.DataFrequency60 - 64165 - 69070 - 74475 - 79380 - 84685 - 891090 - 941195 - 9919100 - 10411mode = median = mean = Report mode and median accurate to one decimal place. Report the mean accurate to two decimal places (or enter as a fraction).
Approximate the measures of center for following GFDT. Data Frequency 40 - 44 2 45 - 49 3 50 - 54 4 55 - 59 11 60 - 64 22 65 - 69 14 70 - 74 8 75 - 79 1 80 - 84 4 mode = median = mean =
Approximate the measures of center for following GFDT. Data Frequency 30 - 34 2 35 - 39 0 40 - 44 12 45 - 49 16 50 - 54 11 Report mode and median accurate to one decimal place. Report the mean accurate to two decimal places (or enter as a fraction). (a) mode = (b) median = (c) mean =
A random sample of 30 male college students was selected, and their heights were measured. The heights (in inches) are given below. 67 69 70 69 67 66 73 69 70 67 73 69 68 68 69 73 72 67 68 71 73 71 71 72 70 67 66 74 68 72 (a) Complete the frequency distribution for the data. Make sure to enter your answers for the relative frequency as decimals, rounded to the nearest tenth. Height Frequency Relative...
2 62.8 MEAN = 3 71.9 MEDIAN = 4 69.6 MODE= 5 74.1 RANGE = 6 66.6 MIN. = 7 76.5 MAX.= 8 66.4 STDEV. = 9 73.1 MY HEIGHT =67.00 10 71.6 Z SCORE FOR MY HEIGHT = 11 69.3 12 64.0 13 70.9 14 62.2 15 63.3 16 67.7 17 65.2 18 64.2 19 69.4 20 71.7 21 64.6 22 69.0 23 71.3 24 69.1 25 71.6 26 75.9 27 66.2 28 67.4 29 64.6 30 69.6 31...
INN MARGIN ROOMS NEAREST OFFICE COLLEGE INCOME DISTTWN 1 61 3203 0.1 549 8 37 12.1 2 34 2810 1.5 496 17.5 39 0.4 3 46 2890 1.9 254 20 39 12.2 4 31.9 3422 1 434 15.5 36 2.7 5 57.4 2687 3.4 678 15.5 32 7.9 6 47.5 3080 2.4 488 13.5 31 6.7 7 54.4 2756 1.1 832 14.5 35 6.9 8 46.2 2244 0.7 496 15.5 38 8.9 9 54.1 2862 1.4 809 16.5 33 3...
Python Pandas, Series and DataFrame Question (NO Loops, No If Statements, No List Comprehensions) The file bank.csv contains data about bank customers. The last column ('Personal Loan') indicates whether or not the customer was approved for a personal loan or not. Write a function named loan_by_zip that accepts 3 parameters: a file name, a minimum number of records, and a percentage approval rate. The function should return a DataFrame of those zip codes for which we meet the minimum number...