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spurious scholar

Because if p < 0.05, why not publish?

Step 1: Gather a bunch of data. There are 25,156 variables in my database. The data ranges from the mundane (air pollution in Chicago) to the weird (Hotdogs consumed by Nathan's Hot Dog Eating Competition Champion) to the super-niche (How clickbait-y Numberphile YouTube video titles are, as rated by an AI).
Step 2: Dredge that data to find random correlations between variables. "Dredging data" means taking one variable and correlating it against every other variable just to see what sticks. It's a dangerous way to go about analysis, because any sufficiently large dataset will yield strong correlations completely at random.

Fun fact: the chart used on the wikipedia page to demonstrate data dredging is also from me. I've been being naughty with data since 2014.

Step 3: Calculate the correlation coefficient, confidence interval, and p-value to see if the connection is statistically significant. "Statistically significant" is a misleading term. It sounds like it means "statistically significant" because, you know, those are the same two words. Unfortunately statistical significance is a technical term that means mumble mumble at least as extreme mumble mumble null hypothesis mumble mumble probability mumble mumble p-values.

You know what? Forget the technical definition. "Statistically significant" just means "someone did some fancy math."

I really did the fancy math below and you can check it by clicking on the "view detailed data" link under each paper. And these really do qualify as "statistically significant" in the technical sense. It's just that "statistically significant" does not mean the results are "significant."

Step 4: If it is, have a large language model draft a research paper.
Step 5: Remind everyone that these papers are AI-generated and are not real. Seriously, just pick one and read the lit review section. The silliness of the papers is an artifact of me (1) having fun and (2) acknowledging that realistic-looking AI-generated noise is a real concern for academic research (peer reviews in particular).

The papers could sound more realistic than they do, but I intentionally prompted the model to write papers that look real but sound silly.

Also: every page says "This paper is AI-generated" at the bottom and the first letters of the names of the authors always spell out C-H-A-T-G-P-T.

Step 6: ...publish:

The Live Free or Carjack Dilemma: Examining the Relationship Between Libertarian Votes for Senators in New Hampshire and Carjackings in the US
The Journal of Political Criminology
r=0.831 · 95% conf. int. [0.207,0.974] · r2=0.690 · p < 0.05
Generated Jan 2024 · View data details

Correlating Consumed Hotdogs and Conservative Votes: A Cacophony of Culinary and Political Connections
The Journal of Gastronomical Politics
r=0.921 · 95% conf. int. [0.718,0.980] · r2=0.848 · p < 0.01
Generated Jan 2024 · View data details

Viral Visions: Exploring the Interplay of Internet Memes and YouTube Success
The Journal of Internet Culture and Media Studies
r=0.897 · 95% conf. int. [0.711,0.965] · r2=0.804 · p < 0.01
Generated Jan 2024 · View data details

Ain't Nobody Got Time for Physics: The Quirky Relationship Between 'Ain't Nobody Got Time for That' Meme Popularity and 'Minute Physics' Google Searches
The Journal of Internet Meme Studies
r=0.800 · 95% conf. int. [0.519,0.925] · r2=0.640 · p < 0.01
Generated Jan 2024 · View data details

Idaho Votes and Disney Quotes: Examining the Relationship Between Republican Presidential Voting Trends and Disney Movie Releases
The Journal of Political Cartoons and Pop Culture Analysis
r=0.829 · 95% conf. int. [0.053,0.981] · r2=0.687 · p < 0.05
Generated Jan 2024 · View data details

Cheesing the System: Analyzing the Correlation Between Republican Votes for Senators in Iowa and Google Searches for 'Best Mousetrap'
The Journal of Unconventional Political Science
r=0.830 · 95% conf. int. [0.056,0.981] · r2=0.689 · p < 0.05
Generated Jan 2024 · View data details

The Great Meme Fuel Connection: Exploring the Surprising Correlation Between 'Harambe' Popularity and Jet Fuel Consumption in Kyrgyzstan
The Journal of Memetic Energy Dynamics
r=0.999 · 95% conf. int. [0.995,1.000] · r2=0.999 · p < 0.01
Generated Jan 2024 · View data details

Blue Votes and Kerosene Totes: A Surprising Correlation Across Continents
The Journal of Quirky Sociopolitical Correlations
r=0.862 · 95% conf. int. [0.402,0.975] · r2=0.743 · p < 0.01
Generated Jan 2024 · View data details

Braking the Norm: A Correlation between Libertarian Votes and Automotive Recalls for Service Brakes, Air
The Journal of Quirky Correlations
r=0.983 · 95% conf. int. [0.850,0.998] · r2=0.967 · p < 0.01
Generated Jan 2024 · View data details

Blue State Blues and Real Estate Views: The Impact of Democratic Senatorial Votes in Idaho on Prologis' Stock Price (PLD)
The Journal of Political Economy and Real Estate Dynamics
r=0.981 · 95% conf. int. [0.835,0.998] · r2=0.963 · p < 0.01
Generated Jan 2024 · View data details

From Calc to Crude: A Correlation Between 3Blue1Brown Video Titles and Petroleum Consumption in Turkmenistan
The Journal of Quirky Cross-Disciplinary Studies
r=0.924 · 95% conf. int. [0.564,0.989] · r2=0.854 · p < 0.01
Generated Jan 2024 · View data details

From Feast to Famine: Exploring the Link Between MrBeast YouTube Video Views and the Appetite for Food Service Management in Florida
International Journal of Viral Media Studies
r=0.976 · 95% conf. int. [0.908,0.994] · r2=0.953 · p < 0.01
Generated Jan 2024 · View data details

Putting the Brake on Libertarian Votes: A Corrosive Correlation Analysis of Idaho Presidential Elections and Parking Brake Recalls
The Journal of Quirky Quantitative Analyses
r=0.861 · 95% conf. int. [0.539,0.963] · r2=0.741 · p < 0.01
Generated Jan 2024 · View data details

The Puzzling Pairing of Pollution and PAs: A Quirky Quest in Decatur, Alabama
The Journal of Ecological Enigmas
r=0.957 · 95% conf. int. [0.859,0.987] · r2=0.916 · p < 0.01
Generated Jan 2024 · View data details

Air Pollution in Richmond, Virginia and Jet Fuel Combustion in Saint Vincent - A Rhyming Riddle
The Journal of Environmental Verse
r=0.899 · 95% conf. int. [0.777,0.956] · r2=0.808 · p < 0.01
Generated Jan 2024 · View data details

The Cat's Meow: Exploring the Chuck Norris Meme and Its Impact on Cute Cat Searches
The Journal of Internet Memes and Cultural Psychology
r=0.908 · 95% conf. int. [0.767,0.966] · r2=0.825 · p < 0.01
Generated Jan 2024 · View data details

Clearing the Air Around Gender Studies: A Bachelor's Degree of Separation from Air Pollution in Deming, New Mexico
The Journal of Gendered Atmospheric Studies
r=0.870 · 95% conf. int. [0.530,0.969] · r2=0.756 · p < 0.01
Generated Jan 2024 · View data details

Caught in a Meme Hole: The Correlation Between the 'Florida Man' Phenomenon and Google Searches for the Black Hole Photo
The Journal of Internet Culture and Phenomena
r=0.968 · 95% conf. int. [0.903,0.989] · r2=0.937 · p < 0.01
Generated Jan 2024 · View data details

The Quantum Connection: Exploring the Correlation Between PBS Space Time YouTube Video Titles and Amusement Park Attendance in Delaware
The Journal of Amusement Park Studies
r=0.856 · 95% conf. int. [0.383,0.974] · r2=0.733 · p < 0.01
Generated Jan 2024 · View data details

Colt and Giertz: The Likable Link?
Journal of Quirky Robotics
r=0.937 · 95% conf. int. [0.723,0.987] · r2=0.878 · p < 0.01
Generated Jan 2024 · View data details

The View Counts Connection: A Reel Analysis of Total SmarterEveryDay YouTube Views and Warner Bros. Discovery Stock Price
The Journal of Digital Culture and Financial Analysis
r=0.889 · 95% conf. int. [0.712,0.959] · r2=0.790 · p < 0.01
Generated Jan 2024 · View data details

The Seventh Grade Deluge: Can the Number of Students Predict Republican Votes on the White House Fence?
The Journal of Whimsical Social Science
r=0.954 · 95% conf. int. [0.762,0.992] · r2=0.910 · p < 0.01
Generated Jan 2024 · View data details

Never Gonna Give You Upublican: The Surprising Relationship Between Nebraska Senate Votes and Rickrolling Popularity
The Journal of Political Rickrolling Studies
r=0.939 · 95% conf. int. [0.533,0.993] · r2=0.881 · p < 0.01
Generated Jan 2024 · View data details

The Jarod Quotient and Greenwood's Polluted Environment: A Name-astatic Study
The Journal of Quirky Quantitative Studies
r=0.855 · 95% conf. int. [0.678,0.939] · r2=0.732 · p < 0.01
Generated Jan 2024 · View data details

Rays of Hope: Shedding Light on the Pollution-Solar Power Nexus
Journal of Solar Ecology and Pollution Studies
r=0.994 · 95% conf. int. [0.973,0.999] · r2=0.988 · p < 0.01
Generated Jan 2024 · View data details


Currently viewing 25 of 4,731 spurious research papers

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Why this works

  1. Data dredging: I have 25,156 variables in my database. I compare all these variables against each other to find ones that randomly match up. That's 632,824,336 correlation calculations! This is called “data dredging.” Fun fact: the chart used on the wikipedia page to demonstrate data dredging is also from me. I've been being naughty with data since 2014.
    Instead of starting with a hypothesis and testing it, I isntead tossed a bunch of data in a blender to see what correlations would 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 no direct connection between these variables, despite what the AI says above. 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.
    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. You will often see trend-lines form. 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 naive p-value calculation does not take this into account. You will calculate a lower chance of "randomly" achieving the result than represents reality.

    To be more specific: p-value tests are probability values, where you are calculating the probability of achieving a result at least as extreme as you found completely by chance. When calculating a p-value, you need to assert how many "degrees of freedom" your variable has. I count each year (minus one) as a "degree of freedom," but this is misleading for continuous variables.

    This kind of thing can creep up on you pretty easily when using p-values, which is why it's best to take it as "one of many" inputs that help you assess the results of your analysis.
  4. Outliers: Some datasets here have outliers which drag up the correlation. 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.

    Because this page is automatically generated, I don't know whether any of the charts displayed on it have outliers. I'm just a footnote. ¯\_(ツ)_/¯
    I intentionally mishandeled outliers, which makes the correlation look extra strong.



Spurious Scholar was launched January 27, 2024. If you have feedback on it, I'd love to hear from you! Shoot me a note: feedback@tylervigen.com.


Project by Tyler Vigen
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