These are basically the "tides" of the Earth, as water in the oceans is spun away from the spinning Earth, but attracted by the Moon and the Sun. The varying topography of the ocean floors determines how these form actual tides.
Bulges of water in the ocean are "high tides"
bulges of water in the ocean are called high tides.
The area between bulges of water in the ocean is called a trough. There are generally a couple of these in between: one that is usually high and the other one that is usually low.
Because the moon's gravity pulls the water towards it. It bulges out in the middle of the ocean, which sucks the water from its outer edges (the shoreline).
Large bodies of salt water are called seas or oceans.
Water that is a mixture of fresh water and salt water is called brackish water.
bulges of water in the ocean are called high tides.
The area between bulges of water in the ocean is called a trough. There are generally a couple of these in between: one that is usually high and the other one that is usually low.
Bulges in the ocean are called tides. These are the rising and falling motions of the sea, caused by the gravitational pull of the moon and sun on the waters of the Earth.
yes its true
it is called an irrelevant spit. it is called this because it is in between bulges and is basicly what you call irrelevant
That's a good way to describe the tides. You can think of a permanent bulge in the ocean, pointing toward the moon, with the earth rotating inside the bulge.
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The ocean bulge and the tides are caused by attraction from the Moon.
It is caused by the moon's gravitational force.
Because the moon's gravity pulls the water towards it. It bulges out in the middle of the ocean, which sucks the water from its outer edges (the shoreline).
it is when the gravitational pull of the moon is the strongest so it creates huge bulges of the ocean water
Due to gravity, ocean water is attracted to areas of high topography and away from areas of low topography on the sea floor, causing bulges and depressions on the ocean surface. Satellite radar can detect these changes in elevation.