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  1. Proportionality (mathematics)
  2. Proportionality
  3. Function (mathematics)
  4. Rule of three (mathematics)
  5. Valuation (mathematics)
  6. Kepler's laws of planetary motion
  7. Eudoxus of Cnidus
  8. Ratio
  9. Pythagorean theorem
  10. Similarity (geometry)
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Higher pendulum more weight lifted B of A&B
fore having to same timing. The longer or shorter the pendulum the more or less time between pulls of the pendulum. The length of the pendulum is directly proportional to the timing (time between lifts) AND the height the pendulum can be swung. The height, the pendulum can be swung (Length of the pendulum) . While being directly proportional in timing. Ie One meter one second per lift. 2 meters, 2 seconds per lift. The length of the pendulum is exponential to power of lift. The lift ...
Higher pendulum more weight lifted A of A&B
fore having to same timing. The longer or shorter the pendulum the more or less time between pulls of the pendulum. The length of the pendulum is directly proportional to the timing (time between lifts) AND the height the pendulum can be swung. The height, the pendulum can be swung (Length of the pendulum) . While being directly proportional in timing. Ie One meter one second per lift. 2 meters, 2 seconds per lift. The length of the pendulum is exponential to power of lift. The lift ...
Lec 30 | MIT 8.02 Electricity and Magnetism, Spring 2002
is now E -- E0 times the cosine of theta. If you ask me now, whether the light is reduced in intensity, I would have to say, "Yes, of course," because light intensity depends on the Poynting vector, and the pointing vector is always proportional to E0 squared, because the Poynting vector is the cross-product between E and B. And if E is reduced, B is also reduced. And so we get a cosine square reduction. If, now, I average over all incoming photons -- so I take all of these, which ...
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