The moon's gravitational pull causes tides in Earth's oceans, but the height of the tide depends on factors such as the location of the particular body of water, the shape of the coastline, and the depth of the water. Generally, tides can range from a few centimeters to several meters in height.
The moon affect the ocean tides because of the gravitational pull that the moon has. Where the is a high tide, the moon is pulling the water toward it's gravity. The water on the opposite side of Earth, will pull away from the moon.
The tides are primarily caused by the gravitational pull of the moon
Tidal currents are primarily caused by the gravitational pull of the moon and to a lesser extent the sun on the Earth's water bodies. As the moon orbits Earth, its gravitational pull creates bulges in the ocean water, causing high and low tides which in turn generate tidal currents as the water moves to balance out these bulges.
High tides occur when the gravitational pull of the moon and sun align with the Earth, causing water to bulge towards them. Low tides occur when the moon and sun are at right angles to each other, creating less gravitational pull on the water.
The moon has a gravity like the earth and therefore as it changes from a full moon to crecent so dose the gravitational pull. It is this gravitational pull on the sea that causes waves and high and low tide. The wind can also have an effect on how strong or high the waves will be
Closer. Because of the moon's pull of gravity on the water.
"Lunar pull" refers to the gravitational force exerted by the moon on Earth, causing the phenomenon of tides. The moon's gravitational pull creates bulges of water on opposite sides of Earth, leading to the rise and fall of the ocean's water levels known as high and low tides.
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.
The moon affect the ocean tides because of the gravitational pull that the moon has. Where the is a high tide, the moon is pulling the water toward it's gravity. The water on the opposite side of Earth, will pull away from the moon.
The tides are primarily caused by the gravitational pull of the moon
Tidal currents are primarily caused by the gravitational pull of the moon and to a lesser extent the sun on the Earth's water bodies. As the moon orbits Earth, its gravitational pull creates bulges in the ocean water, causing high and low tides which in turn generate tidal currents as the water moves to balance out these bulges.
It's obvious why there's a high tide on the side nearest the moon: the water is pulled by the moon's gravity. However, that pull is reduced the further you get from the moon, so on the far side, the water experiences a much reduced pull. That causes it to bulge outwards.
High tides occur when the gravitational pull of the moon and sun align with the Earth, causing water to bulge towards them. Low tides occur when the moon and sun are at right angles to each other, creating less gravitational pull on the water.
The Moon's high tides are caused by its gravitational pull on Earth's water. As the Moon orbits Earth, it creates a bulge in the water on the side facing the Moon, causing a high tide. There is also a second high tide on the opposite side of Earth due to the centrifugal force from Earth's rotation.
The moon has a gravity like the earth and therefore as it changes from a full moon to crecent so dose the gravitational pull. It is this gravitational pull on the sea that causes waves and high and low tide. The wind can also have an effect on how strong or high the waves will be
Because of the earth, moon, and sun rotating and causing the gravitational force to pull the water towards the moon.
The moon's gravitational pull creates tides on Earth's surface water. As the moon orbits, its gravitational force causes water to bulge out toward the moon, creating high tides. This effect is more noticeable in areas closer to the moon.