tides are the caused by the gravitation effects of the moon and the sun.
each of these celestial bodies have their own timely pattern, but sometimes the sun's pattern and the moon's will synchronize and cause an extra-heavy tide.
likewise, sometimes their effects will be diametrically-opposed.
an increase in the typical tidal movements could be caused by:
* an increase in mass of either the sun or the moon
* an increase in proximity of the sun or the moon
* another celestial body (comet/asteroid) of a sufficient mass passing close enough to the earth to gravitationally influence the movement of water.
A shift in the orbit of the moon.
If Earth's tides decreased, the most likely explanation would be a significant reduction in the gravitational influence of the Moon, which is the primary driver of tides. This could occur if the Moon were to move further away from Earth or if its mass decreased. Additionally, changes in sea level due to climate factors or geological events could also affect the perceived strength of tides. However, such scenarios would require extraordinary circumstances, as the Moon's influence is stable over long periods.
The water level would increase due to increased gravitational pull. This is actually happening right now: the moon is being pulled into the orbit of Earth. It's happening very slowly, but consider this: Atlantis was sank by a giant tidal wave.
None of the planets influence the tides on Earth. Only the moon, which is not a planet, has a major impact on tides on Earth.
Without tides, marine ecosystems would be greatly impacted, as many species rely on the ebb and flow of the tides for feeding, reproduction, and habitat. Coastal erosion would likely increase, as tides help distribute sediment along shorelines. Additionally, tidal energy would not be a feasible renewable energy source without tides.
A shift in the orbit of the moon.
If Earth's tides decreased, the most likely explanation would be a significant reduction in the gravitational influence of the Moon, which is the primary driver of tides. This could occur if the Moon were to move further away from Earth or if its mass decreased. Additionally, changes in sea level due to climate factors or geological events could also affect the perceived strength of tides. However, such scenarios would require extraordinary circumstances, as the Moon's influence is stable over long periods.
Yes the earth has tides
Yes, the tides gradually slow Earth's rotation.Yes, the tides gradually slow Earth's rotation.Yes, the tides gradually slow Earth's rotation.Yes, the tides gradually slow Earth's rotation.
Tides on earth are mainly caused by the moon's gravity and earth's rotation.
Friction related to the tides. Since the energy that produces the tides comes from the Earth's rotation, it follows that whenever energy is lost in the tides, the Earth's rotation will slow down.Friction related to the tides. Since the energy that produces the tides comes from the Earth's rotation, it follows that whenever energy is lost in the tides, the Earth's rotation will slow down.Friction related to the tides. Since the energy that produces the tides comes from the Earth's rotation, it follows that whenever energy is lost in the tides, the Earth's rotation will slow down.Friction related to the tides. Since the energy that produces the tides comes from the Earth's rotation, it follows that whenever energy is lost in the tides, the Earth's rotation will slow down.
The water level would increase due to increased gravitational pull. This is actually happening right now: the moon is being pulled into the orbit of Earth. It's happening very slowly, but consider this: Atlantis was sank by a giant tidal wave.
The earth's highest tides are caused by the gravitational pull of the moon and sun on the earth's oceans. When the sun, moon, and earth are aligned during a full moon or new moon, their gravitational forces combine to create higher tides known as spring tides.
Ocean tides would be most affected by a change in the moon's mass. A larger moon mass would increase the gravitational pull on the Earth, causing stronger and higher tides.
Earth's tides are determined by the moon's ________________ pull.
None of the planets influence the tides on Earth. Only the moon, which is not a planet, has a major impact on tides on Earth.
Earth's tides are caused by the interaction of:the gravitational pull of the moonthe gravitational pull of the sunthe rotation of the Earth