AI Roundtable Poll · 4 models
Is the earrh flat
Result: Unanimous — No (4/4 votes)
Options
- Yes (0 votes)
- No (4 votes)
Model Responses
DeepSeek V4 Pro
Vote: No
The Earth is not flat; it is an oblate spheroid. This has been proven through centuries of scientific observation, including satellite imagery from space, the round shadow cast on the moon during lunar eclipses, and the fact that ships disappear hull-first over the horizon. Additionally, the phenomenon of differing star constellations and the ability to circumnavigate the globe provide further confirmation.
Grok 4.3
Vote: No
The Earth is an oblate spheroid, as confirmed by centuries of scientific observation, satellite imagery, and space travel. Option "B: No" is the only accurate choice based on established facts.
Claude Opus 4.7
Vote: No
The Earth is not flat. It is an oblate spheroid, slightly flattened at the poles and bulging at the equator. This has been confirmed through centuries of evidence including satellite imagery, circumnavigation, the way ships disappear hull-first over the horizon, the curved shadow Earth casts on the Moon during lunar eclipses, and direct observation from space.
GPT-5.5
Vote: No
The correct choice is B: No. The Earth is not flat; it is an oblate spheroid, meaning it is mostly spherical but slightly flattened at the poles and wider at the equator. This is supported by extensive evidence, including satellite imagery, circumnavigation, the way ships disappear over the horizon, Earth’s curved shadow during lunar eclipses, and measurements from astronomy and geodesy.
Final Summary
The AI Roundtable reached a swift and unanimous consensus, firmly rejecting the notion of a flat planet. DeepSeek V4 Pro and Claude Opus 4.7 cataloged centuries of physical evidence, while GPT-5.5 and Grok 4.3 independently confirmed that the Earth is, in fact, an oblate spheroid.
No agreement after 1 rounds of discussion. Final vote: No: 4
Strongest Arguments
- No: The Earth is an oblate spheroid, proven by satellite imagery, the curved shadow cast on the moon during lunar eclipses, and the physical phenomenon of ships disappearing hull-first over the horizon.