DAILY GALAXY
For centuries, the idea of a flat Earth has persisted in human imagination, bolstered by the apparent flatness of the surrounding ground. But modern science—and images from space—clearly demonstrate that our planet is spherical. So why does our everyday experience contradict this reality? The answer lies in human perspective and the sheer immensity of Earth’s scale.
The Illusion of Flatness is Just a Question of Perspective
Standing on Earth’s surface, humans are minuscule compared to the planet’s vast dimensions. With a diameter of about 12,742 kilometers at the equator, the curvature of the Earth is imperceptible from ground level. Even climbing to the top of Mount Everest, 8,850 meters above sea level, won’t provide a discernible view of the planet’s curve. Our visual range from ground level spans roughly 4.8 kilometers—far too limited to detect the Earth’s spherical nature.
The curvature can also be expressed as a drop of 7.98 inches per mile squared. This means that over a mile, the Earth’s surface drops by about 8 inches. However, this is far too gradual to notice without specialized tools. This limited perspective can be likened to that of a fly on a circus ball: close to the surface, the fly cannot perceive the curvature and sees its environment as flat.
Height Matters: Spotting the Curve
To observe the Earth’s curvature, altitude is key. High-flying airplanes, orbiting satellites, or a ride on a space mission reveal what is invisible from the surface. Commercial planes at cruising altitude—over 10 kilometers—offer passengers a faint glimpse of Earth’s curve through the windows.
At these altitudes, the drop due to curvature becomes more pronounced and noticeable. For example, pilots flying large jets report a clearer view of the curve from their vantage point than passengers see through side windows.
Astronauts in orbit, however, see the full scope of the planet’s roundness, vividly contrasting with the flat horizon visible from the ground. The visual curve of the Earth becomes more dramatic at higher altitudes, such as those achieved by satellites or spacecraft.
Not a Perfect Sphere
Even from space, Earth isn’t a flawless sphere. It is an oblate spheroid, slightly flattened at the poles due to the centrifugal force generated by its rotation. This flattening is quantified by Earth’s flattening ratio: approximately 1/298, indicating that the equatorial diameter is roughly 28 kilometers greater than the polar diameter.
