The Great Deep, Or, What Causes the Tides
Title | The Great Deep, Or, What Causes the Tides PDF eBook |
Author | |
Publisher | |
Pages | 52 |
Release | 1849 |
Genre | |
ISBN |
Conveys scientific information within narrative.
Tides
Title | Tides PDF eBook |
Author | Jonathan White |
Publisher | Trinity University Press |
Pages | 280 |
Release | 2017-01-16 |
Genre | Nature |
ISBN | 1595348069 |
In Tides: The Science and Spirit of the Ocean, writer, sailor, and surfer Jonathan White takes readers across the globe to discover the science and spirit of ocean tides. In the Arctic, White shimmies under the ice with an Inuit elder to hunt for mussels in the dark cavities left behind at low tide; in China, he races the Silver Dragon, a twenty-five-foot tidal bore that crashes eighty miles up the Qiantang River; in France, he interviews the monks that live in the tide-wrapped monastery of Mont Saint-Michel; in Chile and Scotland, he investigates the growth of tidal power generation; and in Panama and Venice, he delves into how the threat of sea level rise is changing human culture—the very old and very new. Tides combines lyrical prose, colorful adventure travel, and provocative scientific inquiry into the elemental, mysterious paradox that keeps our planet’s waters in constant motion. Photographs, scientific figures, line drawings, and sixteen color photos dramatically illustrate this engaging, expert tour of the tides.
Understanding Tides
Title | Understanding Tides PDF eBook |
Author | Steacy D. Hicks |
Publisher | |
Pages | 84 |
Release | 2006 |
Genre | Tides |
ISBN |
Tide
Title | Tide PDF eBook |
Author | Hugh Aldersey-Williams |
Publisher | Penguin UK |
Pages | 410 |
Release | 2016-06-02 |
Genre | Science |
ISBN | 0241968003 |
From Cnut to D-Day: the history and science of the unceasing tide explored for the first time. Half of the world's population lives in coastal regions lapped by tidal waters. Yet how little most of us know about the tide. Our ability to predict and understand the tide depends on centuries of science, from the observations of Aristotle and the theories of Newton to today's supercomputer calculations. This story is punctuated here by notable tidal episodes in history, from Caesar's thwarted invasion of Britain to the catastrophic flooding of Venice, and interwoven with a rich folklore that continues to inspire art and literature today. With Aldersey-Williams as our guide to the most feared and celebrated tidal features on the planet, from the original maelstrøm in Scandinavia to the world's highest tides in Nova Scotia to the crumbling coast of East Anglia, the importance of the tide, and the way it has shaped - and will continue to shape - our civilization, becomes startlingly clear.
The Tide: The Science and Stories Behind the Greatest Force on Earth
Title | The Tide: The Science and Stories Behind the Greatest Force on Earth PDF eBook |
Author | Hugh Aldersey-Williams |
Publisher | W. W. Norton & Company |
Pages | 368 |
Release | 2016-09-20 |
Genre | Science |
ISBN | 0393243109 |
“Superb. . . . A gently studious Bill Bryson crossed with an upbeat and relaxed WG Sebald.”—James McConnachie, Sunday Times (UK) Half of the world’s population today lives in coastal regions lapped by tidal waters. But the tide rises and falls according to rules that are a mystery to almost all of us. In The Tide, celebrated science writer Hugh Aldersey-Williams weaves together centuries of scientific thinking with the literature and folklore the tide has inspired to explain the power and workings of this most remarkable force. Here is the epic story of the long search to understand the tide from Aristotle, to Galileo and Newton, to classic literary portrayals of the tide from Shakespeare to Dickens, Melville to Jules Verne. Throughout, Aldersey-Williams whisks the reader along on his travels: He visits the Bay of Fundy in Nova Scotia, where the tides are the strongest in the world; arctic Norway, home of the raging tidal whirlpool known as the maelstrom; and Venice, to investigate efforts to defend the city against flooding caused by the famed acqua alta.
Latitudinal Controls on Stratigraphic Models and Sedimentary Concepts
Title | Latitudinal Controls on Stratigraphic Models and Sedimentary Concepts PDF eBook |
Author | Carmen M. Fraticelli |
Publisher | |
Pages | 0 |
Release | 2019 |
Genre | Geology, Stratigraphic |
ISBN | 9781565763463 |
It is self-evident that a better understanding of depositional systems and analogs leads to better inputs for geological models and better assessment of risk for plays and prospects in hydrocarbon exploration, as well as enhancing interpretations of earth history. Depositional environments - clastic and carbonate, fine- and coarse-grained, continental, marginal marine and deep marine - show latitudinal variations, which are sometimes extreme. Most familiar facies models derive from temperate and, to a lesser extent, tropical examples. By comparison, depositional analogs from higher latitudes are sparser in number and more poorly understood. Numerous processes are amplified and/or diminished at higher latitudes, producing variations in stratigraphic architecture from more familiar depositional "norms." The joint AAPG/SEPM Hedberg Conference held in Banff, Alberta, Canada in October 2014 brought together broad studies looking at global databases to identify differences in stratigraphic models and sedimentary concepts that arise due to differences in latitude and to search for insights that may be applicable for subsurface interpretations. The articles in this Special Publication represent a cross-section of the work presented at the conference, along with the abstracts of the remaining presentations. This volume should be of great interest to all those working with stratigraphic models and sedimentary concepts.
An Introduction to Tides
Title | An Introduction to Tides PDF eBook |
Author | Theo Gerkema |
Publisher | Cambridge University Press |
Pages | 223 |
Release | 2019-06-20 |
Genre | Science |
ISBN | 1108474268 |
A self-contained introduction to tides, explaining the origin of tidal constituents and their wave propagation in oceans and coastal seas.