Analysis of Photo of Palma de Majorca from Barcelona: Zero Curvature of The Earth
Meteorological Scientist, Alfons Puertas, took a dawn photo from Barcelona’s Fabra Observatory, captured a stunning image of the island of Palma de Majorca. Every bit of the Majorca Island is visible in the photo from the bottom of the shore to Puig Major, the highest peak on the Spanish island of Majorca.
A simple search for photos of “Palma de Majorca seen from Barcelona”, in addition to simple parabolic trigonometry and spherical geometry calculations for The Earth curvature, assuming a theoretical Earth circumference of 24,901 miles, reveal that from Barcelona’s Fabra Observatory to Palma de Majorca, 10,503.0115 feet of landmass should be below the Earth’s Curvature, and not visible from Palma de Majorca, if The Earth were, indeed, spherical.
Data
- The distance between Barcelona’s Fabra Observatory and Palma de Majorca is approximately 125.517 miles (202 km, or 662,730 feet), according to Google Earth.
- Barcelona’s Fabra Observatory is at 415 meters (1361.55 feet above sea level).
- Puig Major is the highest peak on the Spanish island of Palma de Majorca, with its highest elevation of 1,436 meters (4,711 feet) above sea level. It is situated in the Serra de Tramuntana mountains.
- From Barcelona’s Fabra Observatory, the lowest visible point of Palma de Majorca rests below the Garraf Coast in Majorca at approximately 420 meters (1377.95 feet above sea level), which is roughly the same height as Barcelona’s Fabra Observatory, and therefore an insignificant and a negligible equality of height between the two. Hence, Barcelona’s Fabra Observatory Telescope sits at a straight line of sight to the Garraf Coast in Palma de Majorca, and so adjustment to observer vantage pint in relation to the observed object are necessary to calculate.
- The Fabra Observatory is an astronomical observatory located in Barcelona, Catalonia, Spain pointed towards the south at 415 meters above sea level (latitude: 41,4184° N; longitude: 2,1239° E). It was established in 1904 and belongs to the Royal Academy of Science and Arts of Barcelona (Catalan: Reial Acadèmia de Ciències i Arts de Barcelona). Its main activity is the study of asteroids and comets. It is the fourth most ancient observatory in the world that is still functioning. Fabra Observatory Telescope has a double refractor built by Mailhat, Paris, in 1904. The visual instrument (the lower of the two tubes) has an aperture of 38 cm and a focal length of 6 meters (f/15.8). The photographic instrument also has an aperture of 38 cm, but a shorter focal length of 4 meters (f/10.5).
Calculations
- 125.517 miles X 125.517 miles X 8 inches= 126,036.138312 inches
- Divided by 12 to get feet=10,503.011526 feet
- 10,503.0115 feet of expected Earth curvature of landmass should be below the Earth’s Curvature at sea level, and not visible from Barcelona, at sea level, if The Earth was, indeed, spherical.
- Calculating the adjustment of Barcelona’s Fabra Observatory’s 1361.55 feet observation point, and Puig Major’s 4,711 feet summit above sea level, we get:
- Puig Major’s 4,711 feet Minus Barcelona’s Fabra Observatory’s 1361.55 feet observation point EQUALS 3,349.45 feet of vantage point height difference.
- 10,503.0115 feet of expected Earth curvature PLUS 3,349.45 feet of vantage point height difference EQUALS 13,852.4615 feet of curvature that the
- Palma de Majorca’s Puig Major’s peak should be below line of sight from Barcelona’s Fabra Observatory if The Earth was spherical.
- Calculating the adjustment of Barcelona’s Fabra Observatory’s 1361.55 feet above sea level observation point, and the lowest visible point from Barcelona’s Fabra Observatory, the Garraf Coast in Palma de Majorca at approximately 1377.95 feet above sea level, which is roughly the same height as Barcelona’s Fabra Observatory, and given 10,503.0115 feet of expected Earth curvature:
- The Garraf Coast in Palma de Majorca at approximately 1377.95 feet above sea level Minus Barcelona’s Fabra Observatory’s 1361.55 feet above sea level observation point EQUALS 16.4 feet ofdifference between Barcelona’s Fabra Observatory and the lowest visible point from Barcelona’s Fabra Observatory, the Garraf Coast in Palma de Majorca.
- 10,503.0115 feet of expected Earth curvature Minus the 16.4 feet of difference between Barcelona’s Fabra Observatory and the lowest visible point from Barcelona’s Fabra Observatory, the Garraf Coast in Palma de Majorca EQUALS 10,486.6115feet of expected Earth curvature that is absent from the Palma de Majorca from Barcelona photo.
Conclusion
The results are undeniable, scalable, measurable, and available for anyone to repeat at any time. From Barcelona’s Fabra Observatory, we are literally seeing the peak of Puig Major on Palma de Majorca, when it should be 13,852.4615 feet below the line of sigh if The Earth was spherical.
Additionally, from Barcelona’s Fabra Observatory, the lowest visible point of Palma de Majorca rests below the Garraf Coast in Majorca at approximately 1377.95 feet, which is roughly the same height as Barcelona’s Fabra Observatory, and therefore an insignificant and a negligible equality of height between the two. Hence, Barcelona’s Fabra Observatory Telescope sits at a straight line of sight to the Garraf Coast in Majorca, and so adjustment to observer vantage point in relation to the observed object are necessary to calculate.
Nevertheless, the land object altitude calculations reveal that 10,486.6115 feet of expected Earth curvature is absent between Barcelona’s Fabra Observatory and the lowest visible point from Barcelona’s Fabra Observatory, the Garraf Coast in Palma de Majorca. In this case, we see the Garraf Coast hills that should not be visible at all on from Barcelona’s Fabra Observatory if we lived on a Globe. They should be completely hidden by earth curvature, but given clear weather conditions and good visibility, the truth is in plain sight.
Try this Enclosed Cosmology (Flat Earth) research yourself and you’ll find hundreds, if not thousands, of top-notch, award winning professional photos which were made by legitimate scientists and professional photographers, who are actually Heliocentrists with no bias towards Flat Earth, whatsoever. In fact, if you were sit most of these scientists and professional photographers down and tell them that their photos prove the Earth is a flat terrain, they would have no idea what you are talking about. Most of them are simply professional scientist and photographers who thought it clever to take long distance photos.
Most of the amateur photos coming out to debunk The Flat Earth fact are taken by fraudulent sources and photoshopped and doctored to force a Heliocentric claim. Also, a lot of these “debunking photos” are deceptive in that they are taken at certain angle or lighting in order to illicit an Imaginary Curve to The Earth, and then when you ask for the mathematical specifics of their photo, they either have nothing to offer or all the wrong data and wrong calculations.
Lastly, Flat Earth Debunkers are notorious for having almost zero scientific knowledge of atmospheric refraction, atmospheric density, angular compression, how perspective works on a flat plane, spherical geometry, the limits of visual acuity for the human eye, and how mirages actually work, etc…
The Earth is not a Globe. We live on a flat terrain with mountain and valleys to speckle The Earth’s vast flat expanse. Do your own research and encourage others to do so. If and when they dare to look, they will see for themselves that there is an insane over-abundance of proof for Flat Earth, and literally no proof for the spinning globe model, once you break free from the Hollywood and NASA film studio brainwashing.