Re the Moon: No. Never. It's tidal force on the Earth is gradually slowing the rotation of the Earth, and as the Earth loses angular momentum because of that, the lost momentum is transferred to the Moon's orbit, causing it to move away from us at a fraction of an inch per year. But ignoring the fact that the Sun's death will evaporate the Earth and Moon, eventually the Earth's rotation would slow to the point that it always kept the same face to the Moon, just as the Moon always keeps the same face to us. And although the Moon would be further from us than now, it still wouldn't be far enough away for it to escape from the Earth. In fact, because of tidal forces from the Sun on the Earth-Moon system, at that point the Moon would start moving closer to us (at a fraction of a millimeter per decade), slightly increasing the speed of its orbit and our rotation, so that we each still kept the same side toward each other. But as I already noted, neither the Earth nor Moon would still exist by the time that could happen.
Re the Earth: The only way for the Earth to escape from the Sun's gravitational pull is to increase its speed, and there is no way to do that unless some "rogue" planet passes through the Solar System, runs into the Earth at several times the escape velocity of the Solar System (which is automatic, if it actually came from outside the Solar System in the first place). In that case, the debris that became the Earth would mostly merge with the other planet and, following a path only slightly different from the original path of the incoming object, pass out of the Solar System forever. However, the chances of such a planet even entering our Solar System while the Earth still exists is close to zero, and the chance of an actual collision would be several million billion trillion quadrillion times closer to zero. So again, no way, Jose. (The last sentence used to be a slang "never going to happen" in the U.S. It has no significance when applied to any actual person, even if they happened to be named Jose.)
Re the Earth: Earth's only way to escape the Sun's gravitational pull is to speed up, and there is no way to do that unless a "rogue" planet passes through the Solar System and hits Earth multiple times.
Me: I also agree with them.
Originally, Venus was smaller in shell than Mercury's moon.
According to my calculations: Mercury must have separated from Venus.
The cause of separation is at the beginning of creation. During the formation of an important element, Mercury was not affected by this impact. This very large impact hit the surface of the Sun and caused a strong shock in the early rings of all the planets.
The reason for the simultaneous vibrations in the first rings of all the planets is in the wave structure of the Sun's core. I proved it with formulas.
As a result, the moons of the first ring of the solar system are disturbed.
Planet Venus: Mercury's moon is separated from Venus and wanders between the Sun and Venus. Most of the scattered dust was absorbed from the destruction of other areas on Mercury's crust.
Planet Earth: There were probably two small moons on Earth. The first moon, which is much smaller, was placed in the first ring of the earth and lost its gravity in a moment and fell to the surface of the earth.
The moon was in the third ring of the earth and its size was much smaller. After a big earthquake, it collects very fine soil thrown from the ground and becomes bigger.
Planet Mars: In the beginning, it had a small and a large moon. After the big shock, the small moon that was in the first ring and its core was very small and insignificant, sinks into the surface of Mars. And because at the moment of impact, the direction of the small moon was opposite to the direction of Mars, it was drawn on the surface of Mars and a large valley was created. And at the stopping point on the surface of Mars, it formed the largest mountain in the solar system. As a result of the collision with the second moon of Mars, a large part of its crust was separated and formed the moon Phobos.A smaller volume than the second moon, but with a larger crust, formed Deimos