High tide.
high tide i think
The bulge that takes place on parts of the facing or opposite the moon is high tide.
high tide
The pull of the moon's gravity on the ocean causes the tides. When the moon is over water its pull causes the water to bulge (rise toward the moon) as the Earth rotates below the moon this bulge moves. Wherever the bulge is there's high tide. Everywhere else where the water has been pulled away from to make the bulge is low tide.
High tide.
High tide.
high tide i think
The bulge that takes place on parts of the facing or opposite the moon is high tide.
high tide
high tide
The pull of the moon's gravity on the ocean causes the tides. When the moon is over water its pull causes the water to bulge (rise toward the moon) as the Earth rotates below the moon this bulge moves. Wherever the bulge is there's high tide. Everywhere else where the water has been pulled away from to make the bulge is low tide.
5
The Moon causes these tides by deforming the oceans, and as the Earth rotates under this ocean bulge, it causes a high tide to propagate onto beaches. Because there are two bulges, we get two high tides, and also two low tides each day.
High tide nimo
The times of high and low tide shift a little each day, so usually you'll get one high and one low tide in a day. Occasionally you can get high-low-high or low-high-low in one day, but this is quite rare.
When the tide is at its highest.