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Spurious correlation #24,908 · View random

A linear line chart with years as the X-axis and two variables on the Y-axis. The first variable is The number of movies Joey King appeared in and the second variable is Points allowed by the New England Patriots.  The chart goes from 2007 to 2023, and the two variables track closely in value over that time. Small Image
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Data details

The number of movies Joey King appeared in
Source: The Movie DB
Additional Info: Ramona and Beezus (2010); Wish Upon (2017); Outlaw Prophet: Warren Jeffs (2014); Radium Girls (2020); Smartass (2017); Age of the Moon (2015); The Kissing Booth (2018); Summer '03 (2018); The Boxcar Children: Surprise Island (2018); The Kissing Booth 2 (2020); The Kissing Booth 3 (2021); The Princess (2022); The In Between (2022); Borealis (2015); Slender Man (2018); Bullet Train (2022); A Creepshow Animated Special (2020); White House Down (2013); Stonewall (2015); Backyards & Bullets (2007); The Lie (2018); Wish I Was Here (2014); Anatomy of Hope (2009); Family Weekend (2013); Zeroville (2019); The Boxcar Children (2014); Meet the Insiders of 'White House Down' (2013); Camp (2023); Elevator Girl (2010); The Conjuring (2013); The Sound and the Fury (2015); Battle: Los Angeles (2011); Avenging Angel (2007); Oz the Great and Powerful (2013); Crazy, Stupid, Love. (2011); Going in Style (2017); Quarantine (2008); Yellowbird (2014); Ice Age: Dawn of the Dinosaurs (2009); The Dark Knight Rises (2012); Independence Day: Resurgence (2016); Horton Hears a Who! (2008); Reign Over Me (2007)

See what else correlates with The number of movies Joey King appeared in

Points allowed by the New England Patriots
Detailed data title: Total points the New England Patriots allowed their opponents to score during the year
Source: Pro-Football-Reference.com
See what else correlates with Points allowed by the New England Patriots

Correlation r = 0.4583285 (Pearson correlation coefficient)
Correlation is a measure of how much the variables move together. If it is 0.99, when one goes up the other goes up. If it is 0.02, the connection is very weak or non-existent. If it is -0.99, then when one goes up the other goes down. If it is 1.00, you probably messed up your correlation function.

r2 = 0.2100650 (Coefficient of determination)
This means 21% of the change in the one variable (i.e., Points allowed by the New England Patriots) is predictable based on the change in the other (i.e., The number of movies Joey King appeared in) over the 17 years from 2007 through 2023.

p < 0.10(Null hypothesis significance test)
The p-value is 0.064. 0.0642744806027815100000000000
The p-value is a measure of how probable it is that we would randomly find a result this extreme. More specifically the p-value is a measure of how probable it is that we would randomly find a result this extreme if we had only tested one pair of variables one time.

But I am a p-villain. I absolutely did not test only one pair of variables one time. I correlated hundreds of millions of pairs of variables. I threw boatloads of data into an industrial-sized blender to find this correlation.

Who is going to stop me? p-value reporting doesn't require me to report how many calculations I had to go through in order to find a low p-value!
On average, you will find a correaltion as strong as 0.46 in 6.4% of random cases. Said differently, if you correlated 16 random variables Which I absolutely did.
with the same 16 degrees of freedom, Degrees of freedom is a measure of how many free components we are testing. In this case it is 16 because we have two variables measured over a period of 17 years. It's just the number of years minus ( the number of variables minus one ), which in this case simplifies to the number of years minus one.
you would randomly expect to find a correlation as strong as this one.

[ -0.03, 0.77 ] 95% correlation confidence interval (using the Fisher z-transformation)
The confidence interval is an estimate the range of the value of the correlation coefficient, using the correlation itself as an input. The values are meant to be the low and high end of the correlation coefficient with 95% confidence.

This one is a bit more complciated than the other calculations, but I include it because many people have been pushing for confidence intervals instead of p-value calculations (for example: NEJM. However, if you are dredging data, you can reliably find yourself in the 5%. That's my goal!


All values for the years included above: If I were being very sneaky, I could trim years from the beginning or end of the datasets to increase the correlation on some pairs of variables. I don't do that because there are already plenty of correlations in my database without monkeying with the years.

Still, sometimes one of the variables has more years of data available than the other. This page only shows the overlapping years. To see all the years, click on "See what else correlates with..." link above.
20072008200920102011201220132014201520162017201820192020202120222023
The number of movies Joey King appeared in (Movie appearances)32222154413513131
Points allowed by the New England Patriots (Patriots points)274309285313342331338313315250296325225353303347299




Why this works

  1. Data dredging: I have 25,237 variables in my database. I compare all these variables against each other to find ones that randomly match up. That's 636,906,169 correlation calculations! This is called “data dredging.” Instead of starting with a hypothesis and testing it, I instead abused the data to see what correlations shake out. It’s a dangerous way to go about analysis, because any sufficiently large dataset will yield strong correlations completely at random.
  2. Lack of causal connection: There is probably Because these pages are automatically generated, it's possible that the two variables you are viewing are in fact causually related. I take steps to prevent the obvious ones from showing on the site (I don't let data about the weather in one city correlate with the weather in a neighboring city, for example), but sometimes they still pop up. If they are related, cool! You found a loophole.
    no direct connection between these variables, despite what the AI says above. This is exacerbated by the fact that I used "Years" as the base variable. Lots of things happen in a year that are not related to each other! Most studies would use something like "one person" in stead of "one year" to be the "thing" studied.
  3. Observations not independent: For many variables, sequential years are not independent of each other. If a population of people is continuously doing something every day, there is no reason to think they would suddenly change how they are doing that thing on January 1. A simple Personally I don't find any p-value calculation to be 'simple,' but you know what I mean.
    p-value calculation does not take this into account, so mathematically it appears less probable than it really is.
  4. Y-axis doesn't start at zero: I truncated the Y-axes of the graph above. I also used a line graph, which makes the visual connection stand out more than it deserves. Nothing against line graphs. They are great at telling a story when you have linear data! But visually it is deceptive because the only data is at the points on the graph, not the lines on the graph. In between each point, the data could have been doing anything. Like going for a random walk by itself!
    Mathematically what I showed is true, but it is intentionally misleading. Below is the same chart but with both Y-axes starting at zero.
  5. Outlandish outliers: There are "outliers" in this data. In concept, "outlier" just means "way different than the rest of your dataset." When calculating a correlation like this, they are particularly impactful because a single outlier can substantially increase your correlation.

    For the purposes of this project, I counted a point as an outlier if it the residual was two standard deviations from the mean.

    (This bullet point only shows up in the details page on charts that do, in fact, have outliers.)
    They stand out on the scatterplot above: notice the dots that are far away from any other dots. I intentionally mishandeled outliers, which makes the correlation look extra strong.




Try it yourself

You can calculate the values on this page on your own! Try running the Python code to see the calculation results. Step 1: Download and install Python on your computer.

Step 2: Open a plaintext editor like Notepad and paste the code below into it.

Step 3: Save the file as "calculate_correlation.py" in a place you will remember, like your desktop. Copy the file location to your clipboard. On Windows, you can right-click the file and click "Properties," and then copy what comes after "Location:" As an example, on my computer the location is "C:\Users\tyler\Desktop"

Step 4: Open a command line window. For example, by pressing start and typing "cmd" and them pressing enter.

Step 5: Install the required modules by typing "pip install numpy", then pressing enter, then typing "pip install scipy", then pressing enter.

Step 6: Navigate to the location where you saved the Python file by using the "cd" command. For example, I would type "cd C:\Users\tyler\Desktop" and push enter.

Step 7: Run the Python script by typing "python calculate_correlation.py"

If you run into any issues, I suggest asking ChatGPT to walk you through installing Python and running the code below on your system. Try this question:

"Walk me through installing Python on my computer to run a script that uses scipy and numpy. Go step-by-step and ask me to confirm before moving on. Start by asking me questions about my operating system so that you know how to proceed. Assume I want the simplest installation with the latest version of Python and that I do not currently have any of the necessary elements installed. Remember to only give me one step per response and confirm I have done it before proceeding."


# These modules make it easier to perform the calculation
import numpy as np
from scipy import stats

# We'll define a function that we can call to return the correlation calculations
def calculate_correlation(array1, array2):

    # Calculate Pearson correlation coefficient and p-value
    correlation, p_value = stats.pearsonr(array1, array2)

    # Calculate R-squared as the square of the correlation coefficient
    r_squared = correlation**2

    return correlation, r_squared, p_value

# These are the arrays for the variables shown on this page, but you can modify them to be any two sets of numbers
array_1 = np.array([3,2,2,2,2,1,5,4,4,1,3,5,1,3,1,3,1,])
array_2 = np.array([274,309,285,313,342,331,338,313,315,250,296,325,225,353,303,347,299,])
array_1_name = "The number of movies Joey King appeared in"
array_2_name = "Points allowed by the New England Patriots"

# Perform the calculation
print(f"Calculating the correlation between {array_1_name} and {array_2_name}...")
correlation, r_squared, p_value = calculate_correlation(array_1, array_2)

# Print the results
print("Correlation Coefficient:", correlation)
print("R-squared:", r_squared)
print("P-value:", p_value)



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Correlation ID: 24908 · Black Variable ID: 26668 · Red Variable ID: 19728
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