shiraztk said:
Ok, I agree that practically its not happening as I have depicted.
If tides happen because of gravitational pull of Moon,
1. Will my weight be different if I measure it beneath the surface of water on high Tides and low tides? I agree that if it was on the surface of the Earth My mass is too small to be considered. But since water is affected by gravitational pull of Moon and I am now inside water me too should be affected?
You are able to see the affect of the tides more easily with oceaens and large lakes since the water is a liquid and will flow easily as the Earth rotates, and you can notice the change in height of water in relation to the land level. The more solid Earth is also affected by the lunar gravitation but the affect is a vertical dispalcement and not a horizontal flow. You are affected by the lunar gravitation whether you are on land or on or under water.
Will you weigh less at high tide versus low tide? Speaking of water only,
To answer this question consider an Earth covered with a deep sea of water, and with no moon. Also add in the fact that this water- Earth is non-rotating. The surface of the water would be spherical ( if the Earth did not rotate ), and all locations of this sphere would be at the same gravitaional potential so the water would not have any tendency or reason to flow from one location to the other.
If you add a gravitating object such as the moon, the equipotential surface of the water is now changed, so water will flow towards the side facing the moon and flow towards the side opposite the moon. While the gravitational force of the moon varies as 1/r^2, it is the difference in gravitational potential that causes the tides. This force varies as 1/r^3. This is the difference of the gravitational force of the moon with that of an object located at the center of mass of the earth, with that of an object on its surface. This has the affect of weakening the Earth's gravitation on the surface object, on the side facing the moon and on the opposite the moon. At right angles to the moon-earth the tidal force reinforces the Earth's gravitation.
The water covered Earth will take on the appearance or shape of as ellipsoid, or more basically a spheroid. On this surface you will find all locations having a equipotential. so no matter where you are on the surface you are attracted to the center of mass of the water- Earth with the same gravitational potential. At a high tide location your weight would be the same as at a low tide location. If your weight would be different you can surmise, then the water would also experience this difference in gravitation and have a potential to flow from one location to the other.,
For the real earth, with its land mass, rotation, the ocean level still tends to follow an equipotential. But the rotation flattens the poles and the water abuts against the land mass, and frequency affects of the tides may or may not make you weigh less or more at high tide from that at low tide, if it is the height of the tide near a land mass to which you are referring.
