The two high waters on a given day are typically not the same height (the daily inequality) these are the higher high water and the lower high water in tide tables. Tides are commonly semi-diurnal (two high waters and two low waters each day), or diurnal (one tidal cycle per day). Slack water usually occurs near high water and low water, but there are locations where the moments of slack tide differ significantly from those of high and low water. The tide then reverses direction and is said to be turning. ![]() The moment that the tidal current ceases is called slack water or slack tide. Oscillating currents produced by tides are known as tidal streams or tidal currents. Sea level falls over several hours, revealing the intertidal zone ebb tide.Sea level rises over several hours, covering the intertidal zone flood tide.In some regions, there are additional two possible stages: The water stops rising, reaching a local maximum called high tide.The water stops falling, reaching a local minimum called low tide.Tide changes proceed via the two main stages: Types of tides (See Timing (below) for coastal map) For example, the shape of the solid part of the Earth is affected slightly by Earth tide, though this is not as easily seen as the water tidal movements. ![]() Tidal phenomena are not limited to the oceans, but can occur in other systems whenever a gravitational field that varies in time and space is present. While tides are usually the largest source of short-term sea-level fluctuations, sea levels are also subject to change from thermal expansion, wind, and barometric pressure changes, resulting in storm surges, especially in shallow seas and near coasts. These data are compared to the reference (or datum) level usually called mean sea level. Gauges ignore variations caused by waves with periods shorter than minutes. To make accurate records, tide gauges at fixed stations measure water level over time. Tides vary on timescales ranging from hours to years due to a number of factors, which determine the lunitidal interval. A "mixed tide"-two uneven magnitude tides a day-is a third regular category. Other locations have a diurnal tide-one high and low tide each day. Many shorelines experience semi-diurnal tides-two nearly equal high and low tides each day. They are however only predictions, the actual time and height of the tide is affected by wind and atmospheric pressure. The predictions are influenced by many factors including the alignment of the Sun and Moon, the phase and amplitude of the tide (pattern of tides in the deep ocean), the amphidromic systems of the oceans, and the shape of the coastline and near-shore bathymetry (see Timing). Tide tables can be used for any given locale to find the predicted times and amplitude (or " tidal range"). Tides are the rise and fall of sea levels caused by the combined effects of the gravitational forces exerted by the Moon (and to a much lesser extent, the Sun) and are also caused by the Earth and Moon orbiting one another. But when the Moon is at first or last quarter, the Moon and Sun are pulling at right angles to each other, so high tides are lower than average, while low tides are higher - a phase known as “neap” tide - making every tide a little different from all the others.Tide coming in, video stops about 1 + 1⁄ 2 hours before high tide When Earth, Moon, and Sun align - at full Moon and new Moon - the gravity of the Moon and Sun combine to create higher high tides and lower low tides, known as “spring” tides. So the lunar tides are more than twice as strong as the solar tides. The Sun’s gravity is stronger than the Moon’s, but the Sun is also 400 times farther than the Moon. ![]() The height of the tides is also influenced by the Sun. Because of the Moon’s orbital motion around Earth, the tides peak about 50 minutes later each day. ![]() And half-way between high tides, the water is at its lowest level in the cycle, causing low tides. When the bulges hit land, the water level rises, causing high tides. As Earth turns on its axis, these bulges of water travel around the globe to stay aligned with the Moon. Its gravity pulls a little more strongly on the side of Earth that faces it, producing “bulges” in the oceans - one on the side of Earth that faces the Moon, the other on the opposite side. The best-known tides are those caused by the Moon. In the absence of complications due to bathymetry, spring tides are exactly at the full and new moons and neap tides are exactly at the one-quarter and three-quarter moon.
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