This is a little complicated, but actually quite logical:
1. The Moon produces tides. Energy can be obtained from tides. The energy from tides can also be wasted, as friction. Ultimately, the energy for the tides comes from the Earth's rotation. Therefore, as a result of conservation of energy, the Earth will gradually rotate slower.
2. There is also a law of conservation of rotational momentum. If the Earth rotates slower, the Moon moves farther away - thus, rotational momentum is conserved.
This is a little complicated, but actually quite logical:
1. The Moon produces tides. Energy can be obtained from tides. The energy from tides can also be wasted, as friction. Ultimately, the energy for the tides comes from the Earth's rotation. Therefore, as a result of conservation of energy, the Earth will gradually rotate slower.
2. There is also a law of conservation of rotational momentum. If the Earth rotates slower, the Moon moves farther away - thus, rotational momentum is conserved.
This is a little complicated, but actually quite logical:
1. The Moon produces tides. Energy can be obtained from tides. The energy from tides can also be wasted, as friction. Ultimately, the energy for the tides comes from the Earth's rotation. Therefore, as a result of conservation of energy, the Earth will gradually rotate slower.
2. There is also a law of conservation of rotational momentum. If the Earth rotates slower, the Moon moves farther away - thus, rotational momentum is conserved.
This is a little complicated, but actually quite logical:
1. The Moon produces tides. Energy can be obtained from tides. The energy from tides can also be wasted, as friction. Ultimately, the energy for the tides comes from the Earth's rotation. Therefore, as a result of conservation of energy, the Earth will gradually rotate slower.
2. There is also a law of conservation of rotational momentum. If the Earth rotates slower, the Moon moves farther away - thus, rotational momentum is conserved.
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