Since Kepler time (1609) we are educated to believe : “Orbits of the planets are elliptical, with... more Since Kepler time (1609) we are educated to believe : “Orbits of the planets are elliptical, with the Sun at one focus of this trajectory; that the ray Planet-Sun sweeps out equal area in equal interval of time; that a period law is valid”. I claim the contrary. According Newton’s laws the orbits of celestial bodies are not elliptical but spiraled, as discovered by Newton himself (PRINCIPIA page 290 of Andre Motte); no area law, no period law. In these papers mathematical proofs are presented in order to change theis 400 years wrong trend of Keplerian celestial mathematics.
Since Kepler time (1609) we are educated to believe : “Orbits of the planets are elliptical, with... more Since Kepler time (1609) we are educated to believe : “Orbits of the planets are elliptical, with the Sun at one focus of this trajectory; that the ray Planet-Sun sweeps out equal area in equal interval of time; that a period law is valid”. I claim the contrary. According Newton’s laws the orbits of celestial bodies are not elliptical but spiraled, as discovered by Newton himself (PRINCIPIA page 290 of Andre Motte); no area law, no period law. In these papers mathematical proofs are presented in order to change theis 400 years wrong trend of Keplerian celestial mathematics.
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I claim the contrary. According Newton’s laws the orbits of celestial bodies are not elliptical but spiraled, as discovered by Newton himself (PRINCIPIA page 290 of Andre Motte); no area law, no period law. In these papers mathematical proofs are presented in order to change theis 400 years wrong trend of Keplerian celestial mathematics.
I claim the contrary. According Newton’s laws the orbits of celestial bodies are not elliptical but spiraled, as discovered by Newton himself (PRINCIPIA page 290 of Andre Motte); no area law, no period law. In these papers mathematical proofs are presented in order to change theis 400 years wrong trend of Keplerian celestial mathematics.