In order to see the curvature of the Earth, you would need to be at an altitude of at least 35,000 feet, which is roughly the cruising altitude of commercial airplanes.
In order to see the curvature of the Earth, you would need to be at an altitude of at least 35,000 feet, which is the cruising altitude of commercial airplanes.
In order to see the Earth's curvature, you would need to be at an altitude of around 35,000 feet or higher, which is typically the cruising altitude of commercial airplanes.
To see the curvature of the Earth, you would need to be at an altitude of at least 35,000 feet, which is roughly the cruising altitude of commercial airplanes.
Yes, you can see the curvature of the Earth from a plane when flying at a high altitude, typically above 35,000 feet.
Yes, astronauts can see the curvature of the Earth from space.
In order to see the curvature of the Earth, you would need to be at an altitude of at least 35,000 feet, which is the cruising altitude of commercial airplanes.
In order to see the Earth's curvature, you would need to be at an altitude of around 35,000 feet or higher, which is typically the cruising altitude of commercial airplanes.
To see the curvature of the Earth, you would need to be at an altitude of at least 35,000 feet, which is roughly the cruising altitude of commercial airplanes.
Yes, you can see the curvature of the Earth from a plane when flying at a high altitude, typically above 35,000 feet.
Yes, astronauts can see the curvature of the Earth from space.
You need to get to a sufficiently high altitude or distance from the Earth to being to see the curvature. A minimum heihgt of around 60 to 70,000 ft is required to be able the see the curvature of the horizon.
To see the curvature of the Earth, you would typically need to be at an altitude of around 35,000 feet, which is roughly the cruising altitude of commercial airplanes. At this height, the curvature of the Earth becomes noticeable due to the increased field of vision.
No, the curvature of the Earth is not readily visible to the naked eye from the surface. However, it can be observed from high altitudes, such as from an airplane or a mountain peak. To see the curvature clearly, you generally need to be at an altitude of about 35,000 feet or higher.
It is impossible to see the curvature of the earth from the first three layers of the atmosphere... Also, it is impossible to see the curvature of the earth from an aeroplane (which flies up to 28,000 feet) whereas the Burj Khalifa's spire reaches only 2,723 feet. Hence proved, we cannot see the curvature of the earth from the Burj Kahlifa... Ofcourse, you can go there and try it yourself...
To see the curvature of the Earth, you would need to be at an altitude of at least 35,000 feet, which is roughly the cruising altitude of commercial airplanes.
The altitude needed to see the curvature of the Earth is typically around 35,000 feet or higher, which is the cruising altitude of commercial airplanes.
The shape of the Universe on a large scale is not yet known. As far as we can see, it seems flat; for comparison, when you look a few meters around you, the Earth also seems to be flat. On a much larger scale, the Universe may have a positive curvature, a negative curvature, or no curvature at all.The shape of the Universe on a large scale is not yet known. As far as we can see, it seems flat; for comparison, when you look a few meters around you, the Earth also seems to be flat. On a much larger scale, the Universe may have a positive curvature, a negative curvature, or no curvature at all.The shape of the Universe on a large scale is not yet known. As far as we can see, it seems flat; for comparison, when you look a few meters around you, the Earth also seems to be flat. On a much larger scale, the Universe may have a positive curvature, a negative curvature, or no curvature at all.The shape of the Universe on a large scale is not yet known. As far as we can see, it seems flat; for comparison, when you look a few meters around you, the Earth also seems to be flat. On a much larger scale, the Universe may have a positive curvature, a negative curvature, or no curvature at all.