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Dream-Runner

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    theoretical physics

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  1. ESTIMATE THE SIZE OF OUR UNIVERSE USING DATA FROM COSMIC EVENTS.pdf ESTIMATE THE SIZE OF OUR UNIVERSE USING DATA FROM COSMIC EVENTS Assumptions: 1. Our 3-D universe is on the surface of a 4-D globe. 2. Gravitational wave travels within the 4-D globe at speed of light. 3. Gamma-ray, as well as other electromagnetic waves, travels along the surface of the 4-D globe. As illustrated above, X is the distance of the cosmic event; R is the radius of our 4-D globe; C is speed of light; t is the time difference between detection of gravitational wave and gamma-ray. X – 2R*sin(X/2R) = C*t On 8/17/2017, gravitational wave GW170817 was detected. 1.7 seconds later, gamma-ray burst GRB 170817A was detected. The binary stars are 40 Mpc (130 Mly) away. Put these numbers together, the radius of our 4-D globe is around 1015LY (1000 trillion light-years). The estimate could be more accurate with more and more cosmic events being recorded.
  2. Present view: energy/matter was created from nothing during big bang My view: 1. Big bang is a collision of matters from 4th/5th dimension (or higher), which extending into 3-D to form our 3-D world. 2. Our 3-d world is mostly flat in higher dimensions. However, there are objects that could extend deep in higher dimensions, which should be able to identified since they have unusually higher mass than what we predict by our 3-D measurement (volume/density). They are the source for "dark energy" and "dark matter". This is my original work. Please make comments/suggestions. We could share the Nobel Prize if you could provide detail math models. 3. During Big Bang, energy and matter are actually conserved (of course they are interchangeable) -- not created from nothing
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