spurious scholar

Because if p < 0.05, why not publish?
Step 1: Gather a bunch of data. ^Note 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.^Note "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.^Note "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.^Note 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:

Air Pollution in Boulder and Kerosene in Iraq: The Rhyme and Reason
Journal of Environmental Quirks and Curiosities
r=0.602 · 95% conf. int. [0.365,0.766] · r²=0.363 · p < 0.01
Generated Jan 2024 · View data details

The Air Maintenance Conundrum: A Breath of Fresh Air for Florida’s Machinery
The Journal of Pneumatic Precision
r=0.917 · 95% conf. int. [0.799,0.967] · r²=0.841 · p < 0.01
Generated Jan 2024 · View data details

The Motor Vehicle Theft-Mighty Forest Depletes: A Statistical Rhyme Reveals Crime Time
The Journal of Witty Statistic Insights
r=0.952 · 95% conf. int. [0.908,0.976] · r²=0.907 · p < 0.01
Generated Jan 2024 · View data details

The Case of Connecticut Crime and Daytime Drama: Correlating Burglaries with Days of Our Lives Viewership
Journal of Eccentric Sociological Research
r=0.929 · 95% conf. int. [0.865,0.963] · r²=0.862 · p < 0.01
Generated Jan 2024 · View data details

Flying High and Recalling Wheels: The Rhyme and Reason of UFO Sightings in Wyoming and Honda Automotive Recalls
The Journal of Extraterrestrial Engineering and Automotive Anomalies
r=0.827 · 95% conf. int. [0.709,0.901] · r²=0.685 · p < 0.01
Generated Jan 2024 · View data details

Out of This World: The Astrodynamics of UFO Sightings in Iowa
The Journal of Extraterrestrial Studies
r=0.815 · 95% conf. int. [0.690,0.893] · r²=0.665 · p < 0.01
Generated Jan 2024 · View data details

The Bold and the Smoggy: Investigating the Relationship Between Air Pollution in Trenton, New Jersey and Viewership Count for Days of Our Lives
The Journal of Environmental Soap Opera Studies
r=0.846 · 95% conf. int. [0.729,0.915] · r²=0.715 · p < 0.01
Generated Jan 2024 · View data details

Air Quality and Comic Relief: Investigating the Correlation between Air Pollution in Stockton, California, and xkcd Comics about Charts
The Journal of Eclectic Environmental Studies
r=0.806 · 95% conf. int. [0.517,0.930] · r²=0.650 · p < 0.01
Generated Jan 2024 · View data details

Spin Me Round: The Vinyl Frontier – Exploring the Correlation between Air Pollution in Americus, Georgia and Sales of LP/Vinyl Albums
The Journal of Eclectic Environmental Studies
r=0.572 · 95% conf. int. [0.060,0.846] · r²=0.327 · p < 0.05
Generated Jan 2024 · View data details

A Breath of Fresh Vinyl: Exploring the Correlation Between Air Pollution in Sacramento and Physical Album Shipment Volume in the United States
Journal of Ecological Harmonies
r=0.904 · 95% conf. int. [0.788,0.958] · r²=0.817 · p < 0.01
Generated Jan 2024 · View data details

Bryan Air Affair: The Correlation Between the Popularity of the Name Bryan and Air Pollution in Buffalo
Journal of Airborne Nameology
r=0.816 · 95% conf. int. [0.684,0.897] · r²=0.667 · p < 0.01
Generated Jan 2024 · View data details

Watery Watts in Sin City: The Hydro-larious Connection Between Hydropower Energy Generated in Thailand and Number of Las Vegas Hotel Room Check-Ins
The International Journal of Hydrological Humor
r=0.749 · 95% conf. int. [0.550,0.867] · r²=0.561 · p < 0.01
Generated Jan 2024 · View data details

Shining Light on the Stevie Name Effect: A Sunny Connection Between Stevie Popularity and Solar Power Generation in Taiwan
Journal of Solar-Powered Societal Trends
r=0.992 · 95% conf. int. [0.979,0.997] · r²=0.983 · p < 0.01
Generated Jan 2024 · View data details

Fromage to Power: The Cheesy Connection between American Cheese Consumption and Biomass Power Generation in South Korea
The Journal of Dairy Science and Sustainable Energy
r=0.913 · 95% conf. int. [0.816,0.960] · r²=0.833 · p < 0.01
Generated Jan 2024 · View data details

Fuel Fossil Frenzy in Sri Lanka: A Wiener of a Connection to the Consumption of Nathan's Hot Dog Eating Competition Champion
The International Journal of Gastronomic Geology
r=0.948 · 95% conf. int. [0.905,0.972] · r²=0.899 · p < 0.01
Generated Jan 2024 · View data details

The Mav-erick Rises: A Fuelish Connection Between Name Popularity and Fossil Fuel Use in Belize
The Journal of Quirky Energy Studies
r=0.937 · 95% conf. int. [0.885,0.966] · r²=0.878 · p < 0.01
Generated Jan 2024 · View data details

Blowin' in the Name: The Astrid-Wind Power Connection in Ukraine
The Journal of Renewable Energy Insights
r=0.967 · 95% conf. int. [0.923,0.986] · r²=0.934 · p < 0.01
Generated Jan 2024 · View data details

Butter Benefits: Biomass and Butter in Beautiful El Salvador
The Journal of Dairy Delights
r=0.970 · 95% conf. int. [0.940,0.986] · r²=0.942 · p < 0.01
Generated Jan 2024 · View data details

Breath of Fresh Air: Exploring the Relationship Between Air Pollution in Appleton, Wisconsin and the Bailiff Boom in the Badger State
Journal of Environmental Breezology
r=0.727 · 95% conf. int. [0.406,0.888] · r²=0.528 · p < 0.01
Generated Jan 2024 · View data details

Up in the Air: Unraveling the Unlikely Connection Between Air Pollution in Blacksburg, Virginia and Jet Fuel in Burkina Faso
Journal of Atmospheric Anomalies Research
r=0.919 · 95% conf. int. [0.758,0.974] · r²=0.845 · p < 0.01
Generated Jan 2024 · View data details

The Smog and the Soap Opera: A Breath of Fresh Air in Analyzing the Relationship Between Air Pollution in Gettysburg, Pennsylvania and Viewership count for Days of Our Lives
Journal of Ecological Psychology
r=0.712 · 95% conf. int. [0.484,0.850] · r²=0.507 · p < 0.01
Generated Jan 2024 · View data details

The Smog and the Music: Examining the Relationship between Air Pollution in Allentown and Physical Album Shipment Volume in the United States
The Journal of Sonic Atmospheric Impact
r=0.910 · 95% conf. int. [0.801,0.961] · r²=0.828 · p < 0.01
Generated Jan 2024 · View data details

Chilling Consequences: Uncovering the Icy Relationship between Air Pollution and 'Ice Bath' Google Searches in Appleton, Wisconsin
Journal of Quirky Environmental Studies
r=0.867 · 95% conf. int. [0.689,0.946] · r²=0.752 · p < 0.01
Generated Jan 2024 · View data details

Barrett's Carbon Footprint: A Quantitative Analysis of Air Pollution in Grants Pass, Oregon
Journal of Ecological Economics and Environmental Policy
r=0.737 · 95% conf. int. [0.555,0.851] · r²=0.543 · p < 0.01
Generated Jan 2024 · View data details

The Breath of Fresh Air: A Statistical Analysis of Air Pollution in Ogden, Utah and the Employment of Statistical Assistants in Utah
The Journal of Environmental Statistics and Occupational Trends
r=0.751 · 95% conf. int. [0.461,0.896] · r²=0.563 · 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

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.”^Note 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.
Lack of causal connection: There is probably no direct connection between these variables, despite what the AI says above.^Note 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.
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.^Note 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.
Outliers: Some datasets here have outliers which drag up the correlation.^Note 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.