How do we know the Earth isn’t flat? For thousands of years people have known the Earth is round. Ancient civilizations used the stars and shadows to figure it out. Mariners confirmed it by sailing around the globe. And when the space age began, we saw it with our own eyes — the Earth is round! A NASA scientist explains how we’ve known for centuries that our planet is a sphere. Indirect evidence of the Earth’s spherical shape has existed for a long time, but the photographic proof was lacking until well into the 20th century. The ancient Greeks believed the Earth was round and calculated its circumference with remarkable accuracy, while observers inferred our planet’s spherical shape as it cast a curved shadow on the Moon during lunar eclipses. With the advent of aviation, photographers could reach altitudes from which they could record the Earth’s curvature. With sounding rockets and then spacecraft returning photographs from ever-greater distances from the planet, we could begin to see the Earth first as a full disk, then as a smaller and smaller blue oasis against the emptiness of space. Through these images, we gained a better understanding of Earth’s, and therefore of our own, place in the universe.
An article in the May 1931 issue of The National Geographic Magazine described how a photograph taken from an airplane east of the Andes mountain range in South America provided evidence for the Earth’s curvature. Capt. Albert W. Stevens, an officer in the U.S. Army Air Corps and an aerial photographer, took the image on Dec. 30, 1930, while flying at an altitude of 21,000 feet over Villa Mercedes, Argentina. The Andes Mountains, 287 miles away, and although taller than the plane’s altitude, lay below the sensible horizon, marked by the white horizontal line in the photograph. The Earth’s curvature explains this phenomenon, as described in the diagram accompanying the photograph. The Earth’s curvature is also visible laterally in the photograph, although the effect is subtle as the image encompasses only 1/360 of the Earth’s circumference.
In a joint program between the U.S. Army Air Corps and the National Geographic Society, Capt. Stevens, joined by Capt. Orvil A. Anderson, took the first photograph from a high-altitude balloon, clearly showing the Earth’s curvature. On Nov. 11, 1935, the pair took off from the Stratobowl near Rapid City, South Dakota, aboard the helium-filled Explorer II balloon, and ascended to a then world record altitude of 72,395 feet. The photograph showed the troposphere-stratosphere boundary and the actual curvature of the Earth and demonstrated the potential for long-range reconnaissance from high-altitude balloons.
On Oct. 24, 1946, more than 10 years before the launch of the first artificial satellite Sputnik, scientists at the White Sands Missile Range in New Mexico placed a camera on top of a captured German V-2 ballistic missile.
An article in the May 1931 issue of The National Geographic Magazine described how a photograph taken from an airplane east of the Andes mountain range in South America provided evidence for the Earth’s curvature. Capt. Albert W. Stevens, an officer in the U.S. Army Air Corps and an aerial photographer, took the image on Dec. 30, 1930, while flying at an altitude of 21,000 feet over Villa Mercedes, Argentina. The Andes Mountains, 287 miles away, and although taller than the plane’s altitude, lay below the sensible horizon, marked by the white horizontal line in the photograph. The Earth’s curvature explains this phenomenon, as described in the diagram accompanying the photograph. The Earth’s curvature is also visible laterally in the photograph, although the effect is subtle as the image encompasses only 1/360 of the Earth’s circumference.
In a joint program between the U.S. Army Air Corps and the National Geographic Society, Capt. Stevens, joined by Capt. Orvil A. Anderson, took the first photograph from a high-altitude balloon, clearly showing the Earth’s curvature. On Nov. 11, 1935, the pair took off from the Stratobowl near Rapid City, South Dakota, aboard the helium-filled Explorer II balloon, and ascended to a then world record altitude of 72,395 feet. The photograph showed the troposphere-stratosphere boundary and the actual curvature of the Earth and demonstrated the potential for long-range reconnaissance from high-altitude balloons.
On Oct. 24, 1946, more than 10 years before the launch of the first artificial satellite Sputnik, scientists at the White Sands Missile Range in New Mexico placed a camera on top of a captured German V-2 ballistic missile.
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NewsTranscript
00:00That's a great question.
00:07In fact, two or three thousand years ago, ancient people on this planet that did great
00:13things figured out that the Earth was round, it was a sphere.
00:17This was a magical revelation for the Greeks and the Egyptians who were able to see from
00:22the motions of the stars and the way the sun moved, they saw the way the sun's shadow worked
00:28in different places.
00:30And they figured, well, it's only possible if the Earth is round.
00:34And they took that information and it extended into the time of the great mariners that explored
00:39our Earth by ships.
00:41They made the first orbit of Earth by sea and they knew the Earth was round, allowing
00:45them to go across one ocean and come back home the other way.
00:49If the Earth were flat, they would have sailed off the end.
00:51And so we knew that.
00:52But then, at the dawn of the space age, in the late 50s and 60s, we were able to see
00:58for ourselves that our beautiful home is a gorgeous round object known as a sphere.
01:04And that was really special.
01:06It put ourselves into context of our solar system and our universe.
01:09We have a big round sun and a beautiful round Earth and a round Mars.
01:14And today we use the roundness of Earth, the spherical Earth, to use methods in space geodesy
01:20to figure out where we are, where we're going.
01:23I haven't been lost in years.
01:25That's pretty good.
01:26What's happening to the Earth, what's happening to our oceans as we take the pulse of our
01:30planet and consider other worlds beyond as we explore those.
01:34So as we get ready to go back to the moon with women and men and explore other worlds,
01:39the roundness of our solar system and our universe is a special thing.
01:43And we should embrace that as we understand why our planet isn't flat.
01:56NASA's Jet Propulsion Laboratory, California Institute of Technology
02:26NASA Jet Propulsion Laboratory, California Institute of Technology