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Transcript
Einstein’s Happiest Thought Micro-world Macro-World Lecture 7 Equivalence between gravity & acceleration a Man in a closed box on Earth mG g g Since mG=mI, if a=-g, the conditions are equivalent mIa Man in a closed box on an accelerating rocket in deep outer space. The happiest thought I cannot tell the difference between being on earth or in a deep-space rocket accelerating with a=-g Imagination This cannot be due to coincidence. There must be some basic truth involved. Einstein didn’t accept mG=mI as a coincidence These two environments must be exactly equivalent. Einstein Equivalence Principle in his words we [...] assume the complete physical equivalence of a gravitational field and a corresponding acceleration o the reference system [Einstein, 1907] So what? What would happen if I were to shine a light beam through a window on the rocket? If the rocket is accelerating, the light beam bends ½at2 L Since the accelerating rocket and gravity are equivalent, gravity must cause light to bend on Earth’s surface ½gt2 for our room L≈6m: t 1 2 L 6m 8 2 10 s 8m c 3 10 s 2 gt 2 12 10 sm2 2 108 s 2 1015 m very, very tiny effect Does gravity cause light to bend? Very tiny effect: need very strong gravity and a long lever arm. Look at the bending of light from a star by the Sun. (Only possible at an eclipse.) Sir Arthur Eddington 1882-1944 4GM sun 0.00050 2 c Rsun gsun ≈ 27xgearth 11 30 m GM sun 6.7 10 N kg 2 2 10 kg g sun 273 sm2 27 g earth 2 2 8 Rsun 7 10 m 2 Eddington’s 1919 Expeditions 1919 Eclipse Africa 1919 eclipse Measurement: =0.000550±0.000030 in agreement with Einstein’s prediction New York Times: Gravitational lensing “Dark Matter” astronomy Mass induces curvature in space-time The curvature is what we feel as gravity 120 Cartesian vs non-Cartesian coords 170 The Earth is round 170 ?? This is how KAL goes Geodesics The shortest distance between 2 points is Along a “geodesic.” It is a straight line In Cartesian systems Great Circles spherical geometry The shortest distance between two points on the Earth’s surface correspond to “Great Circles”: the intersections of planes passing through the center of the Earth with the Earth’s surface. In this figure, the shortest distances are indicated by the blue lines.
