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But the ancients believed that a beam balance also measured "heaviness" which they recognized through their muscular senses. ... Mass and its associated downward force were believed to be the same thing. Kepler formed a [distinct] concept of mass ("amount of matter" (copia materiae), but called it "weight" as did everyone at that time.
Four Greek philosophers: Socrates, Antisthenes, Chrysippos, Epicurus; British Museum. Socrates, believed to have been born in Athens in the 5th century BC, marks a watershed in ancient Greek philosophy. Athens was a center of learning, with sophists and philosophers traveling from across Greece to teach rhetoric, astronomy, cosmology, and geometry.
The philosophy of Socrates (469–399 BCE) and Plato (427–347 BCE) built on Presocratic philosophy but also introduced significant changes in focus and methodology. Socrates did not write anything himself, and his influence is largely due to the impact he made on his contemporaries, particularly through his approach to philosophical inquiry.
Socrates did not document his teachings. All that is known about him comes from the accounts of others: mainly the philosopher Plato and the historian Xenophon, who were both his pupils; the Athenian comic dramatist Aristophanes (Socrates's contemporary); and Plato's pupil Aristotle, who was born after Socrates's death.
Based on this, Curtis was able to estimate that Andromeda was 500,000 light-years away. As a result, Curtis became a proponent of the so-called "island Universes" hypothesis, which held that objects previously believed to be spiral nebulae within the Milky Way were actually independent galaxies. [21]
There is a philosophical debate within the physics community as to whether a theory of everything deserves to be called the fundamental law of the universe. [57] One view is the hard reductionist position that the theory of everything is the fundamental law and that all other theories that apply within the universe are a consequence of the ...
Expanding relativity to cases of accelerating reference frames (the "general theory of relativity") in the 1910s, Einstein posited an equivalence between the inertial force of acceleration and the force of gravity, leading to the conclusion that space is curved and finite in size, and the prediction of such phenomena as gravitational lensing ...
Phenomena that in classical mechanics are ascribed to the action of the force of gravity (such as free-fall, orbital motion, and spacecraft trajectories), correspond to inertial motion within a curved geometry of spacetime in general relativity; there is no gravitational force deflecting objects from their natural, straight paths.