The Power of Statistics
PODCAST TRANSCRIPTS
One of the many joys about Facebook is that as the election looms on the horizon, you get to have heated debates with individuals on Facebook about things such as the importance of wearing a mask during a pandemic. One particular individual stated that for every doctor that tells us to wear a mask, there is another doctor that says the mask is not necessary. Statistically, this is not the case. That would mean that the countrywide debate would show that 50% of doctors would dispute the use of masks.
In my research, I only found two doctors who do not advocate using a mask. However, the American Hospital Association, the American Medical Association, and the American Nurses Association have written a letter urging Americans to wear a mask. So, if we were to consider that of the 950,000 practicing physicians in the United States that two of those doctors do not advocate for masks, then the statistics would be that .0002% of America’s doctors do not advocate for masks. That is exceptionally different from 50%.
And this leads me to today’s topic: Statistics. Everybody should learn statistics because statistics are awesome. Stats can help anybody get out of an argument if the data is correct.
Statistics is the method of collecting data and analyzing it to infer proportions in whole from sample representations. For example, in a poll of how many people in the United States enjoy apples or bananas, a sample of polls would be taken across the country that would accurately represent the entire population. So, if we were to poll ten people in ten different cities across the country, and gather the data as to who prefers apples over bananas, we could then come up with a statistic that represents the country as a whole, because the sample size represents the opinions of everybody across the country. For the record, 75% of consumers purchase bananas, while 73% of consumers purchase apples.[i]
History of statistics
The process of gathering data has been around since Homo sapiens and Neanderthals have been able to count. Thirty thousand years ago, someone decided to count up to 55 by putting deep notches in a bone. This is the infamous “wolf bone” that was found in 1937 in Czechoslovakia by archeologists. These notches were arranged in groups of five, with one group of 25 notches and another group of 30 notches. Hence, this bone is one of our earliest instances of statistics.
We also have evidence from archeological sites in Turkey of flat, two-sided throw sticks that were used as dice that date back as far as 3000 BCE.[ii] These sticks were used for a game called Senet, which is still being played today. Thus, we are looking at humans playing with numbers and understanding how they describe probabilities and statistics.
In 2000 BCE, Yu the Great implemented a census to evaluate China’s population. They calculated a total of 13,553,923 citizens of China.
Thus, as long as we’ve been counting, we have been gathering data and using statistics. Statistics was most overtly evident in our histories from the 4,000-year-old Plimpton 322 tablet, which shows notation that helped Babylon conclude how much food they needed for each Babylonian.
By 300 BCE, the Roman Empire was gathering data every five years on its citizens. As a result, every man and his family were required to return to their place of birth to be counted so that they could keep track of their population. Not only was it useful in determining how many people were inhabitants of Rome, but it also was useful in determining who was paying taxes.
This process continued well into our current age. In 1086, William the Conqueror ordered the production of the Domesday book. It was an inventory of land and property that covered all of England. Oddly, Winchester and London didn’t make it into the book. Nevertheless, its purpose was much like the Romans; they wanted to be able to tax the owners on the land. By 1279, King Edward the first also commissioned an inquiry into landholding in England for tax purposes.
Fast forward to the 17th century. In 1603, three primary individuals helped to establish how we work with statistics today. These three were Blaise Pascal, Christiaan Huygens, and John Graunt. These three gentlemen contributed a great deal to the statistics that we understand today. Pascal and Huygens were both academics. Pascal was an inventor, mathematician, physicist, and Catholic theologian. He was one of the first inventors of the mechanical calculator, which carried out the addition and subtraction of two numbers, and performed multiplication and division by repeating the process of addition or subtraction.
Pascal often corresponded with Pierre de Fermat, and the two of them worked considerably on probability problems, specifically the rolling of a dice. The two primary probability questions that they worked on were how many times somebody could throw a pair of dice before one can get double sixes. The other question that they focused on was how to divide the stakes if the game of probability was stopped before it was complete.
Huygens was a Dutch physicist, mathematician, astronomer, and inventor. Huygens published a book on probability called The Value of all Chances in Games of Fortune. In this particular treatise, he referenced several of Fermat’s problems. This work was so significant that it established a standard that statisticians used for about 50 years.
Enter John Graunt
One of my favorite stories about statisticians comes from the 17th century and a story about a haberdasher. A haberdasher in the UK is somebody who sells items to make men’s clothing, such as needles, ribbons, buttons, cloth, and zippers.
Graunt was born in 1620. His father was a draper, and by the time he was old enough, he began to work for his father’s shop, eventually taking over as a haberdasher. What is most unassuming about Graunt is that in his life, he did more than sell retail products. He was a self-taught mathematician who became an expert in population statistics.
In February of 1661, he and Sir William Petty published a paper titled Natural and Political Observations Mentioned in the Following Index and Made Upon the Bills of Mortality. It is a long title, but the concept behind it was that factual data was used to create statistical inferences. Graunt was the first person to do this kind of work. In his work, he determined the living and mortality rate in London. What is significant about this particular paper is that he provided probabilities of survival for each age group, and even though it was a probability of survival, this particular bill of mortality did not include the ages of death. This book was foundational to the beginning of public health statistics and allowed medical experts, as well as the government, to understand the conclusions about the mortality of individuals as it related to diseases. This paper put him on the map of the world of mathematics. It made Graunt one of the first experts in epidemiology. In 1662, the Royal Society elected him as a fellow.
What led to his work on this was his skepticism about the number of deaths that contributed to “liver-grown” and “spleen” diseases. During this time, many deaths were brought on by rickets, which is a skeletal disorder brought on by lack of calcium, phosphate, and vitamin D. Rickets eventually leads to softening of the bones and skeletal abnormalities in children. What Graunt discovered was that these other deaths brought on by liver disease and spleen were brought on by rickets. As a result, through his data and “life table,” he determined that death brought on by rickets was in a maximum high in the year 1634.
His paper alluded to his character. He was a very humble man. In the paper, he wrote,
How far I have succeeded in the Premisses, I now offer to the World’s censure, Who, I hope, will not expect from me, not professing Letters, things demonstrated with the same certainty, wherewith Learned men determine in their Scholes; but will take it well, that I should offer at a new thing, and could forbear presuming to meddle where any of the Learned Pens have ever touched before, and that I have taken the pains, and been at the charge, of setting out those Tables, whereby all men may both correct my Positions, and raise others of their own: For herein I have, like a silly Schole-boy, coming to say my Lesson to the World (that Peevish, and Tetchie Master) brought a bundle of Rods wherewith to be whipt, for every mistake I have committed.[iii]
In other words, he’s stating that he is not offering a new discovery; it is just that he found something different that had not been seen before. He humbled himself before the intelligence of his contemporaries. This move actually served to pique the curiosity of his academic peers and led them to respect him even more.
Sadly, on September 2, 1666, in the King’s Bakery in Pudding Lane right near London Bridge, a fire broke out. This fire spread so fast and so extensively that it lasted for four days, swept through central London, and destroyed over 13,000 homes, 87 parishes, St. Paul’s Cathedral, and government buildings. The fire destroyed Graunt’s home and the New River Company, which was a clothing business where he worked as a manager. The fire led to financial troubles for him. Ultimately, he had to file for bankruptcy. Less than ten years later, Graunt died from jaundice and liver disease. The city deeply missed him. His work as a self-made epidemiologist and statistician provided a platform for medical health experts and the government to understand mortality rates and the rise and spread of diseases.
Statistics are phenomenal. What I love most about stats is that they serve as the perfect tool for argumentation and lively dinner conversation.
Dinnertime Stats
Though I don’t have statistics on when the pandemic will end, I do have some interesting statistics for when you’re sitting at the table with your family, looking at them for the millionth time in the last six months, and wondering what to talk about other than our current politics. For those of you looking for ideas, I offer the following statistics:
Statistics show that your odds of winning the lottery are one in almost 14 million.
One out of three adults sleeps with a teddy bear or other type of woobie. As for me, I sleep with my Chihuahua. I know she’s not inanimate, but she’s so old she might as well be.
Americans read for pleasure less than 10 minutes a day.
More than 36 million Americans can’t read above a third-grade level.
Forty-five percent of Americans think that ghosts are real.
Of college football players, only 1.5% go on to play in the major professional leagues.
Thirty-one percent of Americans don’t know their neighbors.
And according to State Farm actuaries, Americans have a one in 175 chance of being audited by the IRS, a one in 215 chance of dating a millionaire, and a one in 220 chance of writing a New York Times bestseller.[iv]
But most importantly, according to the World Health Organization, wearing a mask reduces the spread of coronavirus by 82%. Additionally, keeping a distance of six feet can be even more effective.
As of May 2020, 42% of coronavirus deaths have taken place in nursing homes and assisted living facilities. Two million Americans live in those nursing home facilities. Additionally, more than seven percent of America’s population struggle with autoimmune disorders, and five percent of Americans are cancer survivors. So the next time you leave the house, think about where you are going. Activities such as flying and going to bars are at high risk. Also, if you are leaving home without a mask, stop for just a second and think about somebody else. Think about somebody’s aging parent, or a friend with a weak immune system, or a co-worker who has recovered from cancer. They are at risk. The mask protects all of those who can suffer the worst from this disease. And I happen to know that 99.999% of all United States doctors would agree with me!
Thanks for reading! Until next time, carpe diem!
Gabrielle
[i] “What Fresh Fruit Do Americans Eat the Most?” Healthy Eating | SF Gate. Accessed July 13, 2020. https://healthyeating.sfgate.com/fresh-fruit-americans-eat-most-9593.html.
[ii] “National Museums of Scotland — Two Bone Dice.” National Museums Scotland. Accessed July 13, 2020. https://nms.scran.ac.uk/database/record.php?usi=000–100-040–457‑C.
[iii] Sutherland, Ian. “John Graunt: A Tercentenary Tribute.” Journal of the Royal Statistical Society. Series A (General) 126, no. 4 (1963): 537–56. Accessed July 16, 2020. doi:10.2307/2982578.
[iv] Dalbey, Beth. “Deer Collisions Across The U.S.: The Odds Of Hitting Animals.” Across America, US Patch. Last modified October 3, 2019. https://patch.com/us/across-america/deer-collisions-across-u-s-odds-hitting-animals.