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Example research essay topic: Cumulative Frequency Diagram Lt X Lt Mins - 1,566 words

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The title of my investigation is The Average student. I am going to investigate into whether the students in my year (11) are normally distributed. I have chosen to investigate into this topic because we were required by this subject to produce a piece of coursework assignment, so we decided this would be easiest and most feasible. This leaves me with the predicament of trying measuring certain people in my year group. Are the people in my year at completely different ends of the scale or are they round about equal. To determine a population for my course-work, I am going to go to each form and then measure peoples height and shoes size.

My year compromises of 5 forms. Each form contains roughly 30 students giving a total population of 150 students. Obviously this population is far too vast, so I what I propose to do is to number each student in a form and then I will ask someone who hasnt seen the number configuration to pick a random number. I then match up the numbers with the corresponding students and select 10 students from each form, 5 boys and 5 girls. I will therefore end up with a sample of 50 students, fulfilling the criteria of a sample of at least 50 items of single variable data. To ensure that my sample of students is as accurate as possible, I have cross-referenced my data with that of other students carrying out the same task.

They have confirmed that these are the correct measurements, my cross-referencing will not affect my mathematics skills as my skills will be used on the data, no matter what the data is. On this page I have included results that I calculated with the help of a spreadsheet application (Microsoft Excel). I can then later compare my own calculated results with those shown below. I have decided to pair the boys and girls off on separate charts I have done the process of Standard deviation Girls: Mean Height 165. 4 Standard Deviation 28. 15296373 1 st Quartile 103. 75 Median 117. 5 3 rd Quartile 129. 25 Mean Shoe size 5. 6 Standard Deviation 28. 15296373 1 st Quartile 103. 75 Median 117. 5 3 rd Quartile 129. 25 Boys: Mean 120. 1346154 Standard Deviation 28. 15296373 1 st Quartile 103. 75 Median 117. 5 3 rd Quartile 129. 25 To get a visual idea of the spread of my data, I decided to represent it in a stem and leaf diagram: 70 7 80 8 0 1 5 90 1 2 4 5 3 7 10110 1 7 4 5 4 4 8 12130 0 6 9 0 140 7 8 150 6 160 7 4 2 170 180 1 6 190 200 210 3 N = 52 156 6 represents 156 mins.

Stem and Leaf diagram showing the total duration of a sample of 52 films (unsorted) To help me when constructing a cumulative frequency diagram, I have sorted the above diagram: 70 7 80 0 1 5 8 90 1 2 3 4 5 7 10110 1 4 4 4 5 7 8 12130 0 0 6 9 140 7 8 150 6 160 2 4 7 170 180 1 6 190 200 210 3 N = 52 156 6 represents 156 mins. Stem and Leaf diagram showing the total duration of a sample of 52 films (sorted) As you can se from the above diagram The shortest film has a duration of 77 mins, and the longest is 213 mins long Most films are in the group 120 - 130 mins. I have now decided to construct a frequency table so that I can draw a cumulative frequency graph, which will enable me to draw a box and whisker plot, and therefore visually see any or all outliers in my data. Here follows my table: Class Frequency Cumulative Frequency 70 = < x< 80 1 1 80 = < x< 90 4 5 90 = < x< 100 6 11 100 = < x< 110 9 20 110 = < x< 120 7 27 120 = < x< 130 12 39 130 = < x< 140 4 43 140 = < x< 150 2 45 150 = < x< 160 1 46 160 = < x< 170 3 49 170 = < x< 180 0 49 180 = < x< 190 2 51 190 = < x< 200 0 0 200 = < x< 210 0 0 210 = < x< 220 1 1 Total 52 See overleaf for cumulative frequency diagram. From Graph: First Quartile - 129 mins Mean - 117 mins Third Quartile - 103 mins From my sorted stem and leaf diagram it is possible to calculate median, first and third quartiles of my data, and so will now do so, so that I can compare these results to those obtained from my graph. First Quartile = x 52 + = position 13. 5 Value = 103 mins Median = x 52 + = position 26. 5 Value = 117 mins Third Quartile = x 52 + = position 39. 5 Value = 129 mins As you can see, my graph values deviate from the calculated values.

Therefore as the calculations will probably be more accurate than the graph results, when I draw my box and whisker plot, I will use the calculated values. See below for box and whisker plot: I am now going to calculate the mean and standard deviation of my data so that I can see where the outliers of my data, if any, are. Mean Standard Deviation In most data sets About 2 / 3 of the values lie within 1 standard deviation of the mean About 95 % of the values lie within 2 standard deviations of the mean About 99. 5 % lies within 3 standard deviations. To see if this is so with my data, I will now perform the relevant calculations: Mean = 120. 13 120. 13 + 27. 91 = 148. 04 120. 13 - 27. 91 = 92. 22 Therefore about 2 / 3 of my data should lie between 92 mins and 148 mins. That is, about 34 values should be within this range. About 38 values are in this range, so this piece of information is relevant for my information.

Mean = 120. 13 120. 13 + 2 (27. 91) = 175. 95 120. 13 - 2 (27. 91) = 64. 31 Therefore about 95 % of my data should lie in the range of 64 mins to 178 mins. About 49 values should be in this range. About 49 values are in this range, and so I have identified that the outliers in my data are 181, 186 and 213 mins. SUMMARY OF WHAT I FOUND AND ACCURACY I began this investigation with the aim of finding out the average time of a song and determining how long or short a song can be without the audience being bored or not pleased, respectively. I found that the average duration of the sample of songs that I used was about 235 seconds. The shortest film in my sample was 125. 4 seconds long, and the longest was 325. 2 seconds.

About 2 / 3 of the sample of films fell between 182. seconds and 284. seconds. Therefore my media studies coursework should aim to be between about 182 seconds long and about 284 seconds long. I will aim to make the song to be about 233 seconds long in total length, as this is the average between these two values. I think that this investigation has been a success because I have achieved what I set out to achieve: what length my song should be for maximum audience enjoyment.

In terms of accuracy, I think that this investigation has been a success. I have constructed a table to show my graph values, where applicable, my previously calculated values and the computers values: Graph Value My calculated value Computer value Mean 233. 5 236. 004 Standard Deviation 51. 08 55. 85029 Median 258 mode 202. 2 As you can see, the only real discrepancy occurs with the computers standard deviation, and I can only conclude that this is because it has used a mean with more decimal places, and therefore it is more accurate. It also occurred because the calculated standard deviation was found from grouped data and therefore only an estimate. Graph discrepancies occur because of inaccurate drawing techniques. Other than that, my values are, on the whole, pretty accurate.

The quality of the investigation could be improved by using a more varied population, in an ideal world this would be an Internet site of every film ever made. As this does not exist, the site that contains the most comprehensive list of films will have to do. Which in this case is the site that I used, the HMV superstore site. My method of collection would not vary even if I used another site. If I used three randomly picked numbers for each category, then I would end up with a sample of 78 films, which I think is too produce an accurate report on.

I think that this investigation was a success, as it helped me to gain some information that will help me in another topic, and because it was completed as accurately as I could.


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Research essay sample on Cumulative Frequency Diagram Lt X Lt Mins

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