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The tide is the greatest synchronised movement of matter on our planet. Every drop of seawater takes part in tidal motion, driven by the gravitational pull of the moon and sun. At the coast, we see the tide as a twice-daily rise and fall of sea level that moves the edge of the sea up and down a beach or cliff-face. In some places, the tide is small but at others it can rise in a few hours by the height of a three storey building; it then has to be treated with greatrespect by those who live and work by the sea. 0In this Very Short Introduction David George Bowers and Emyr Martyn Roberts explore what we know about the tides. Blending clear explanations of well known tidal phenomena with recent insights in the deep ocean and coastal seas, Bowers and Roberts use examples from around the world, to tell the story of the tide, considering its nature and causes, its observation and prediction, and unusual tides and their relevance. They explore why tides have attracted the attention of some of the0world's greatest scientists, from the initial challenge of explaining why there are two tides a day when the moon and sun pass overhead just once; a problem that was solved by Isaac Newton. In the 19th century, scientists unravelled the rhythms of the tide; good tidal predictions in the form of tide tables were then possible. The predictions were made on beautiful tide predicting machines constructed of brass and mahogany, some of which can still be seen in maritime museums. In the 20th century, the importance of tides as mixers of sea water became evident. As Bowers and Roberts explore, tidal mixing of the ocean is essential for maintaining its deep circulation, a key part of the climate-control system of our planet. In inshore waters, tidal mixing enhances biological productivity, influences sea temperature and turbidity and creates dramatic features such as maelstroms and tidal bores.
Tides --- Equilibrium theory of tides --- Ocean circulation --- 627.223.4 --- 627.223.4 Tides. Tidal action. Ebb and flow. High and low tides. Tidal range and period. Port installations to cope with tides --- Tides. Tidal action. Ebb and flow. High and low tides. Tidal range and period. Port installations to cope with tides
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Deux fois par jour, des millions de tonnes d’eau de mer montent et descendent sur les côtes. Il s’agit du plus grand mouvement synchronisé de matière sur notre planète : sous l’effet de la force gravitationnelle de la Lune et du Soleil, les marées peuvent se déplacer plus vite qu’une personne qui court ou s’élever aussi haut qu’un immeuble de trois étages.À partir des travaux récents sur la dynamique des grands fonds marins, les auteurs analysent en quoi la marée est un élément clé du système de contrôle du climat et constitue une source d’énergie renouvelable. Ils explorent aussi les marées inhabituelles et les effets des marées au-delà de notre propre planète.
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