Orphan Red | PROOF OF NASA's FAKE STARS and a Flat Earth! @OrphanRed | Uploaded June 2016 | Updated October 2024, 1 hour ago.
Like? Share. Love! Subscribe ;) 1. Stars appear as dots on the ISS. 2. Stars appear as dots to us on Earth. 3. Between the ISS and us on Earth there is a dense atmosphere that very effectively scatters light. 4. If light is scattered - photons deflected from their direct path, it doesn't reach your eye. A deflected photon can then bounce off another particle and find a new path into your eye, but now its point of origin is different, and it will have changed energy-levels through the collision, and so it may also be a different colour, etc. 5. The fewer photons coming from a source, the more likely it is that scattering will result in too few photons reaching the eye to be detected/processed/rendered by the visual centre. Conclusion: a light appearing as freckle-sized and dim (you don't need sunglasses to look at the pinpoint-light that is a star) from 240 miles above the Earth, should not be visible as a freckle-sized light to you.
Like? Share. Love! Subscribe ;) 1. Stars appear as dots on the ISS. 2. Stars appear as dots to us on Earth. 3. Between the ISS and us on Earth there is a dense atmosphere that very effectively scatters light. 4. If light is scattered - photons deflected from their direct path, it doesn't reach your eye. A deflected photon can then bounce off another particle and find a new path into your eye, but now its point of origin is different, and it will have changed energy-levels through the collision, and so it may also be a different colour, etc. 5. The fewer photons coming from a source, the more likely it is that scattering will result in too few photons reaching the eye to be detected/processed/rendered by the visual centre. Conclusion: a light appearing as freckle-sized and dim (you don't need sunglasses to look at the pinpoint-light that is a star) from 240 miles above the Earth, should not be visible as a freckle-sized light to you.