by Sa Ji Tario » Tue May 16, 2023 5:38 pm
In a total eclipde of the Moon, the disk of the Earth is larger than the disk of the Moon, but due to an optical effect, part of the light that touches the terrestrial horizon and due to the effect of the atmosphere itself, curves towards the center, causing a part of the rays come to illuminate the lunar surface (ashy light), wouldn't the same thing happen with the lights of distant stars in a total eclipse of the Sun when their light passes through the solar atmosphere making them see closer to limbo?, after the withdrawal of the Sun in the area is seen more separated saying that it was due to the effect of the great solar gravity?. The image shows the amplitude of said atmosphere. Am I wrong in my reasoning?
To this we must add the lunar gravity that pulls something
In a total eclipde of the Moon, the disk of the Earth is larger than the disk of the Moon, but due to an optical effect, part of the light that touches the terrestrial horizon and due to the effect of the atmosphere itself, curves towards the center, causing a part of the rays come to illuminate the lunar surface (ashy light), wouldn't the same thing happen with the lights of distant stars in a total eclipse of the Sun when their light passes through the solar atmosphere making them see closer to limbo?, after the withdrawal of the Sun in the area is seen more separated saying that it was due to the effect of the great solar gravity?. The image shows the amplitude of said atmosphere. Am I wrong in my reasoning?
To this we must add the lunar gravity that pulls something