Tides

The tides of the sea, circle the Earth not once a day, as they would surely do if attracted by a gravitational force from the Moon and Sun, but twice a day. That tides flow twice daily can only be explained by an alternative hypothesis. The reason that there are two tides is that there is a pressure wave in the ether (dark matter) caused by the displacement of the Moon whilst the Earth rotates with the invisible dark matter around it. The pressure is equally high at two points around the Moons orbit. There is a pressure wave in front of the Moon, and a pressure wave behind the Moon. The pressure wave causes the low tides. The high tides arise not by attraction, but by the flow back of the water from the low state. If there were forces directly attracting the water toward the Moon, there would only be one tide, and that tide facing the Moon. It is the Earth that rotates once a day, whilst the Moon only circles the Earth once a (lunar) month. There could never be a second tide on the other side of the Earth from the Moon. Instead, the Moon displaces dark matter, and there is a pressure wave both ahead of the Moon and behind the Moon. There are two tides during each revolution of the Earth. It is the Earth’s rotation that drives the tides against the pressure in the dark matter.

If you don't credit this theory, you just have to observe when the tide occurs. You will find that each high tide occurs around six hours before the moon is at it's highest, and six hours after that time. The ocean flows are affected by the shape of the land masses, and currents run between seas of various sizes and shapes, but the fact that the moon presses down on the sea forcing it away from itself cannot be doubted. In order to achieve this effect there has to be an effectively "solid" or connected dark matter between the moon and the earth, that puts pressure on the ocean, moving it ahead of the moon's position as the earth rotates. The moon itself only rotates around the earth once a month, and the earth is rotating every 24 hours on its axis, set within the "sea of the dark matter".