If the moon was on the left and the sun was on the right, it would suggest that the moon is in its waxing phase moving towards a full moon. This positioning is a natural occurrence based on the moon's orbit around the Earth and the Earth's orbit around the sun.
It would spin out of earths orbit. And most likely hit a planet, star, comet, or keep on going.
If the Moon's orbit were in the same plane as Earth's orbit around the Sun, we would experience a solar eclipse every month during the new moon phase as the Moon would pass directly between the Sun and Earth. This alignment would likely have a significant impact on Earth's tides and possibly cause more extreme weather patterns due to the gravitational influence of the Moon.
This is impossible but, the earth would keep spinning for a while but would be swirling further and further away from its neighbouring planets and we would freeze immediately. The moon would probably slow to but as the earths gravity weakens, the moon would drift away from us.
Eclipses do not happen twice a month because the Moon's orbit is tilted with respect to Earth's orbit around the Sun. This means that the Moon's shadow usually passes above or below Earth at the time of the new or full moon, resulting in fewer opportunities for eclipses. Eclipses typically occur a few times a year when the alignment of the Sun, Earth, and Moon is just right.
If the Moon were to speed up in orbit, it would be further from Earth. Remember, this is governed by angular momentum, not ballistics.
everyone would DIE! surely..
If the moon was on the left and the sun was on the right, it would suggest that the moon is in its waxing phase moving towards a full moon. This positioning is a natural occurrence based on the moon's orbit around the Earth and the Earth's orbit around the sun.
Your question isn't very clear. The moon revolves around the earth so it essentially has the same orbit around the sun.
If, by some mysterious process, the gravitational forces between the Earth and moon suddenly disappeared, the moon would continue in the solar orbit in which it already is. But the present relatively small perturbations in that orbit caused by the Earth's presence would smooth out, and the moon's orbit would become truly elliptical, without the small wiggles.
What matters heres is the Moon's mass, as well as its distance. With a more massive Moon (and in the same orbit), the tides would of course be stronger.
Techincally speaking that would never happen. The moon would have to be VERY close to the Earth. The moon moves away from the earth 1.75 inches away from the earth each year, making the hours of the day longer. If the moon did orbit the earth in one day, this would happen around the time period the moon formed in space.
If the Earth magically became a black hole, the moon and other satellites in orbit around Earth, would be literally ripped apart into tiny bits and swallowed by the black hole.
It would spin out of earths orbit. And most likely hit a planet, star, comet, or keep on going.
Jupiter is so big that the Earth would orbit Jupiter.
If the Moon's orbit were in the same plane as Earth's orbit around the Sun, we would experience a solar eclipse every month during the new moon phase as the Moon would pass directly between the Sun and Earth. This alignment would likely have a significant impact on Earth's tides and possibly cause more extreme weather patterns due to the gravitational influence of the Moon.
The Earth orbits the Sun. The plane of the Earth's orbit is called the "ecliptic". The Moon has its own orbit around the Earth, and its own orbital plane. If the plane of the Moon's orbit was the same as the plane of the Earth's orbit, then there WOULD be solar eclipses at every new moon, and lunar eclipses at every full moon. But the plane of the Moon's orbit is NOT the same as the plane of the Earth's orbit - and really, why would they be? The Moon's orbital plane is inclined by about 5 degrees from the ecliptic. Therefore, eclipses only happen at full and new moons about every six months, when the Moon happens to be crossing the ecliptic.