# Difference between revisions of "Chance News 73"

m (→Defined by rankings) |
(→Defined by rankings) |
||

Line 75: | Line 75: | ||

by Alina Tugend , ''New York Times'', 22 April 2011 | by Alina Tugend , ''New York Times'', 22 April 2011 | ||

− | On a humorous note, the author confesses that since joining Twitter | + | On a humorous note, the author confesses that since joining Twitter she can't help |

regularly checking her number of followers. But the more serious question is this: | regularly checking her number of followers. But the more serious question is this: | ||

Are we as a society too dependent on numerical rankings? The article quotes MIT professor Sherry Turkle: | Are we as a society too dependent on numerical rankings? The article quotes MIT professor Sherry Turkle: |

## Revision as of 15:10, 17 May 2011

## Contents

## Quotations

From *The Flaw of Averages*, by Sam L. Savage, Wiley, 2009

“Our culture encodes a strong bias either to neglect or ignore variation. We tend to focus instead on measures of central tendency, and as a result we make some terrible mistakes, often with considerable practical import.” (Stephen Jay Gould, cited p. 11)

“Plans based on *average* assumptions are wrong on *average*.” (Savage, p. 11)

“Far better an approximate answer to the right question, which is often vague, than the exact answer to the wrong question, which can always be made precise.” (John W. Tukey, cited p. 38)

“I have found that teaching probability and statistics is easy. The hard part is getting people to learn the stuff.” (Savage, p. 49)

“Statisticians often describe a numerical uncertainty using the Red Words, RANDOM VARIABLE, but I will stick with ‘uncertain number.’ …. [S]top thinking of uncertainties as single numbers and begin thinking of them as shapes, or distributions. …. If you think of an uncertain number as a bar graph, you will not be seriously misled.” (Savage, p. 59ff)

“Joe Berkson, a statistician at the Mayo Clinic, developed his own criterion, which he termed the IOT Test, or Inter Ocular Trauma Test, requiring a graph that hit you between the eyes.” (Savage, p. 325)

See Chance News 52 for a review of *The Flaw of Averages* by Laurie Snell.

Submitted by Margaret Cibes

From *Picturing the Uncertain World*, by Howard Wainer, Princeton, 2009:

“[O]n average Bill Gates and I can afford a new Rolls and a winter home in Provence.” (Wainer, p. 36)

Submitted by Margaret Cibes

"Using a model of no greater sophistication than that employed by Benjamin Franklin (weather generally moves from west to east), I was able to predict that the are of precipitation currently over Ohio would be hitting New Jersey by tomorrow and would stay over us until the weekend. Any fool could see it. The improvement in forecasting has not been entirely due to improvements in the mathematical models of the weather. The enormous wealth of radar and satellite data summarized into a multicolored and dynamic graph can turn anyone into an expert."

*Graphic Discovery A Trout in the Milk and Other Visual Adventures*, p. 15

Submitted by Paul Alper

## Forsooth

## What's in a name?

Peter, Deborah popular names for CEOs

VPR News Morning Edition, 29 April 2011

"If your name is Peter or Deborah, you're more likely to be a CEO. That's what the social networking site LinkedIn found." You can listen to the rest of this Vermont Public Radio broadcast here.

The story was featured in a variety of news outlets:

- What's in a name? Deborah and Peter more likely to become CEOs.
*Daily Mail*, 29 April 2011 - What’s in a baby name? A future CEO if you've got the right syllables,
*Globe and Mail*Blog, 28 April 2011 - 'Peter' and 'Deborah' are top CEO Names, MSNBC Business, 27 April 2011
- Peter, Deborah top LinkedIn list for most popular CEO names,
*San Francisco Chronicle*, 29 April 2011

**Discussion Question**

A tweeted comment on this site says:
"Great analysis, although this can be explained mostly by the age group ..." What are the implications of this? How might you explore them?

Submitted by Jeanne Albert

## Scaling the normal curve

*Picturing the Uncertain World*

by Howard Wainer, Princeton, 2009, p. 171.

This book is a collection of articles that Wainer had authored/co-authored in *Chance* (2000-2007), *American Scientist* (2007), and *American Statistician* (1996).

In Chapter 16, "Galton's Normal," Wainter gives an example of the relative heights of the points on a standard normal curve and of why our sketches of normal curves do not, and cannot, come close to accurate scale drawings.

He calculates that, even if the height at z = 13 were only 1 mm, then the height of the normal curve at the center, z = 0, would be about 5 x 10^30 km, or 5.3 x 10^17 light years. This is equivalent to a height that would be 3.4 million times larger than the universe. (His figures check out.)

Even if the height were 1 mm at z = 6, the height at z = 0 would be 66 km. Thus it still could not be drawn to scale.

Submitted by Margaret Cibes

## Defined by rankings

In a data-heavy society, being defined by the numbers

by Alina Tugend , *New York Times*, 22 April 2011

On a humorous note, the author confesses that since joining Twitter she can't help regularly checking her number of followers. But the more serious question is this: Are we as a society too dependent on numerical rankings? The article quotes MIT professor Sherry Turkle: "One of the fantasies of numerical ranking is that you know how you got there. But the problem is if the numbers are arrived at in an irrational way, or black-boxed, so we don’t understand how we got there, then what use are they? "

The article gives several examples, two of which happen to correspond to stories that were recently discussed in Chance News 71, namely college rankings and New York City's formula for rating teachers.

Submitted by Bill Peterson