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    It's About Time: From Calendars and Clocks to Moon Cycles and Light Years - A History
    It's About Time: From Calendars and Clocks to Moon Cycles and Light Years - A History
    It's About Time: From Calendars and Clocks to Moon Cycles and Light Years - A History
    Ebook189 pages2 hours

    It's About Time: From Calendars and Clocks to Moon Cycles and Light Years - A History

    By Liz Evers

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    About this ebook

    From the ice-age recordings of moon cycles and the earliest calendars, to modern wristwatches and quantum clocks, time and its effects have always enthralled mankind. We've spent centuries developing new ways of measuring time, describing it and quantifying it, and such methods have given rise to some of the most technically and aesthetically beautiful devices ever invented. This book is a tribute to timekeeping in its many forms and takes in the most significant creations as well as countless time trivia - peppered with time-related anecdotes and quotes, this really is an essential handbook for anyone fascinated by the fourth dimension.
    LanguageEnglish
    PublisherMichael O'Mara
    Release dateAug 25, 2013
    ISBN9781782430872
    It's About Time: From Calendars and Clocks to Moon Cycles and Light Years - A History
    Author

    Liz Evers

    Liz Evers is a writer and editor who has written four books for Michael O'Mara Books. She has worked on varied projects across communications and publishing and lives in Ireland.

    Read more from Liz Evers

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    • 2/5
      Evers has brought together a series of stories, facts and anecdotes all linked by the common theme of time. From the ancient methods of recording the passing of time with structures such as Stonehenge she brings us right up to date with atomic and quantum clocks.

      There are some interesting bits in here, particularly the tales about individuals who have made or invented timepieces. But, it falls flat in lots of ways. She declares that she is not technical at all, just before going onto write about some highly complex things, and there is an awful lot of blank space in here as some facts are on a single page with a fancy border.

      More 1.5 stars, bit disappointing really.

    Book preview

    It's About Time - Liz Evers

    Happy Birthday Planet Earth

    In 1654, the Anglican Bishop of Armagh, James Usher, announced that the universe was created at six o’clock on the evening of 22 October 4004 BCE. He reportedly came to this rather definitive conclusion after years of studying the Bible and world history. This theory of the Earth’s age was pretty popular right up to the nineteenth century, when the study of geology and Darwin’s theory of evolution made it clear that the world was considerably older.

    It is now widely believed to be 4.54 billion years old – or written out in full – 4,540,000,000 years old. That’s a lot of years. The 4.54 billion figure has been reached using rather complex mathematics combined with the methods of ‘radiometric’ dating – which include radiocarbon dating, potassium-argon dating and uranium lead dating.

    At its most basic, radiometric dating looks at radioactive decay. It compares the amount of a naturally occurring radioactive chemical component (isotope) and its decay products – we know, for example, that the radioactive component uranium decays to become lead, so looking at the amount of lead left in a rock one can calculate how much uranium there would have been to start with and so how long it has taken to produce the lead.

    Applying these techniques to really, really old rocks and minerals – including meteorites and lunar samples – the magic figure of 4.54 billion has been reached and agreed upon. For now.

    The oldest known terrestrial materials are zircon crystals found in Western Australia. These have been dated as over 4.4 billion years old. The oldest known meteorite matter is 4.567 billion years old. It is believed that our solar system can’t be much older than these samples.

    Which brings us to the time before there was an Earth, or a solar system to house it. To when our universe was born. The prevailing theory is that of the Big Bang, when the universe started expanding from a dense and hot state – and continues to expand into space, which is itself continually expanding.

    The Big Bang is dated as starting 13.5 and 13.75 billion years ago

    The geologic time scale

    Coming back down to Earth again, something called the ‘geologic’ time scale is used by earth scientists, geologists and palaeontologists to describe timings and events in our Earth’s past. It relates time to ‘stratigraphy’ – the study of layers of rocks (stratification).

    There are many wonderful examples of stratification bearing testament to the Earth’s long history. Examples are found in chalk layers in Cyprus, the stunning Colorado Plateau in Utah, exposed strata on mountain faces in the French Alps, and the amazing Stratified Island near La Paz, Mexico, to name but a few.

    The units used to describe geologic time are very long. They include Eons (half a billion years), Eras (several hundred million years), Epochs (tens of millions of years), and Ages (millions of years).

    Taking it as read that the Earth is 4.54 billion years old, the deposits of our old pal zircon, the oldest known mineral, were found during the Hadean Eon in the Cryptic Era. This is when the Moon and Earth were formed. Between 500 and 600 million years later in the Eoarchean Era, simple single-celled life came into being, evidence for which is found in microfossils – that is, fossils which are not larger than four millimetres, and often smaller than one millimetre, and which can only be studied using light or electron microscopy.

    Skipping ahead to the Proterozoic Eon, geologic evidence shows that our atmosphere became oxygenic (specifically during the Palaeoproterozoic Era some 2.05 billion years ago), then the first complex single-celled life, protists, came into being around 1.8 billion years ago.

    The geologic time scale

    It took another 1.2 billion years for the first fossils of multi-celled animals (worms, sponges, soft jelly-like creatures) to show up during the Neo-proterozoic Era (around 635 million years ago) and these evolved into yet more complex fishy creatures during the long Palaeozoic Era (between 541 and 255 million years ago). By the end of this Era the landmass known as Pangaea had formed, comprised of North America, Europe, Asia, South America, Africa, Antarctica, and Australia. Various reptiles and amphibians were roaming about and basic flora, mosses and primitive seed plants had developed, while a host of marine life flourished in shallow reefs.

    Thence to the Mesozoic Era. During its Triassic, Jurassic and Cretaceous Periods (between 252 and 72 million years ago) the dinosaurs, first mammals and crocodilia appeared. Then flowering plants and all manner of new types of insects. Towards the end of the Cretaceous Period there were many new species of dinosaur (though not for long) and creatures equivalent to modern crocodiles and sharks. Primitive birds replaced pterosaurs and the first marsupials appeared. Plus atmospheric CO2 was close to our present-day levels.

    Which brings us to our own Era – the Cenozoic – which started some 66 million years ago and is often referred to as the ‘age of mammals’. In the early part of this Era, the dinosaurs were extinct (more on this to follow) and mammals were diversifying, but it would still be another 40-plus million years before the first apes, our evolutionary ancestors, appeared.

    And it wasn’t until just 200,000 years ago that the first anatomically modern humans appeared and only 50,000 years ago during the Holocene Epoch (which we’re still in) that we started tinkering with stone tools.

    The bottom line is the Earth is very old, and we are very young upon it. To put things in perspective, if you think of the age of the Earth as a 24-hour clock, the first humans appear just 40 seconds before midnight at 23:59:20.

    It is now generally agreed that the catchily titled ‘Cretaceous-Palaeogene extinction event’, which happened approximately 65.5 million years ago, led to the mass extinction of the dinosaurs.

    However, the actual nature of the event is still a matter of considerable discussion. Theories range from a massive asteroid or meteor impact to increased volcanic activity altering the biosphere and significantly reducing the amount of sunlight reaching Earth.

    Whatever it was, the event left behind a geological signature known variously as the Cretaceous-Palaeogene boundary, K-T boundary or K-Pg boundary. Non-avian dinosaurs were wiped out, their fossils lying below the boundary, indicating they became extinct during the event. The small number of dinosaur fossils that have been found above the boundary have been explained as having eroded from their original positions and preserved in later sedimentary layers. You can see exposed areas of the boundary in wilderness areas and state parks, such as at Trinidad Lake, Colorado, and Drumheller in Alberta, Canada.

    Ice ages

    Technically, we are still in an ice age. Admittedly at the tail end of it, the worst was over around 12,500 years ago. It began 2.6 million years ago, but the presence of ice sheets in Greenland and the Antarctic signal its continued existence.

    The Swiss geographer and engineer Pierre Martel (1706–1767) was the first to posit the theory of ice ages. On a visit to the Chamonix valley in the Alps, he observed that the dispersal of boulders pointed to the fact that the glaciers had once been much larger, but had contracted with time. And this phenomenon was observable in other parts of Switzerland, Scandinavia and later noted in the Chilean Andes. But it wasn’t until the 1870s that the theory was widely accepted as fact.

    In addition to the erratic dispersal of large boulders, other evidence of ice ages comes in the form of rock scouring and scratching, valley cutting, the creation of small hills called drumlins and unusual patterns in the distribution of fossils.

    There have been at least five ice ages in our Earth’s history – and outside of these ages the Earth appears to have been free of ice, even at high latitudes. The first ice age was the Huronian, which is thought to have extended from 2.4 billion years ago to 2.1 billion years ago (that’s before the existence of complex single-celled life forms). This was followed by the Cryogenian from 850 to 635 million years ago (when multi-celled creatures were evolving); the relatively short Andean-Saharan from 460 to 430 million years ago (as more complex marine life was evolving); the Karoo Ice Age from 360 to 260 million years ago (as the landmass Pangaea was forming); and finally the current ice age, Quaternary, which started 2.58 million years ago (a few hundred thousand years before the first of the Homo genus had evolved) and continues to this day.

    Contraction of a glacier in Chamonix

    We are now experiencing a relatively stable ‘interglacial’ period, which has provided the climate conditions that have allowed our race to flourish. Without this stability we may not have survived.

    As to when the next ice age begins in earnest depends on the levels of CO2 in the atmosphere. A sudden drop would speed up the arrival of the next ice age – even as soon as 15,000 years hence. But estimates based on rising CO2 (the more likely case given our penchant for fossil fuels) suggest that our current interglacial period may persist for another 50,000 years or even considerably longer.

    Human evolution

    It is astonishing how recent is most of our knowledge about ourselves and our planet. As mentioned above, the concept of ice ages was only first posited in the mid-1700s and generally accepted in the 1870s. The ideas of the ‘evolution’ of species, including humans, and ‘natural selection’ have only been knocking around since the mid-1800s, and only brought to the fore in 1859 when Charles Darwin (1809–1882) published On the Origin of Species. Even so, it took many more decades for Darwin’s ideas about evolution to become mainstream and be incorporated into life sciences. Thinking about the Earth’s age as a 24-hour clock again, the most infinitesimal units of time measurement would be required to place these discoveries in our planet’s natural history.

    There was uproar just a century and half ago when Darwin more explicitly outlined his theories about human evolution in his seminal 1871 book The Descent of Man, and Selection in Relation to Sex. In it he suggests that human races evolved from a common ancestor – and that common ancestor from a succession of animals over millennia. It was an idea appalling to the majority of the day.

    But with close study and uncovering ever more substantive evidence, the proof for many of Darwin’s ideas became too compelling to deny. The

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