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    How to Think Like Einstein
    How to Think Like Einstein
    How to Think Like Einstein
    Ebook155 pages2 hours

    How to Think Like Einstein

    By Daniel Smith

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    About this ebook

    A tantalising mixture of biography-cum-self-help book, this is an accessible, if unusual, analysis of Einstein's thinking- Good Book Guide.

    Best known as the creator of the world's most famous equation, E=mc2, Albert Einstein's theories of relativity challenged centuries of received wisdom dating back to Newton. Without his groundbreaking work in relativity and quantum physics, our knowledge of the cosmos might lag decades behind where it is today.

    But Einstein was not only an extraordinary scientific thinker. He was a humanitarian who detested war and tried to stem the proliferation of hitherto unimaginably destructive weapons that his work had in part made possible. He spent a lifetime fighting authoritarianism and promoting personal freedom, selflessly standing up to those who posed a threat to those ideals.

    He was also a bona fide superstar and was instantly recognizable to millions who had not the least understanding of the intricacies of his scientific theories. Even now, the image of the tussled-hair 'mad professor' poking his tongue out at the camera is familiar across the globe.

    In How to Think Like Einstein, you can explore his unique approach to solving the great scientific mysteries of his age.

    LanguageEnglish
    PublisherMichael O'Mara
    Release dateSep 25, 2014
    ISBN9781782432692
    How to Think Like Einstein
    Author

    Daniel Smith

    DANIEL SMITH is the originator and writer of ten books in the biographical How to Think Like… series for Michael O’Mara, which have been translated into twenty languages and sold around 500,000 copies. His works of narrative non-fiction include The Spade as Mighty as the Sword: The Story of World War Two's 'Dig for Victory' Campaign (Aurum Press, 2011), The Ardlamont Mystery: The Real-Life Story Behind the Creation of Sherlock Holmes (Michael O'Mara Books, 2018) and the acclaimed The Peer and the Gangster (The History Press, 2020).

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    • 2/5
      Not a lot of substance
    • 3/5
      A neat little book on memory techniques and the best way to approach situations in a manner that is similar to Sherlock Holmes. It includes a number of puzzles for you to test your new skills on, some harder than others.
    • 2/5
      Quick, disappointing read. Gimmicky and worn logic puzzles (some requiring a decidedly British familiarity), a handful of Holmes quizzes and a few erroneous problems. For one, the answer implied information not given; for another the problem definition was wrong ("two words" to be found when the solution was two two-word answers)...so, bad editing or just bad writing?

      Not recommended

    Book preview

    How to Think Like Einstein - Daniel Smith

    Life is a Marathon, Not a Sprint

    ‘I never think of the future. It comes soon enough.’

    ALBERT EINSTEIN, 1930

    For any parents intent on hothousing their young child in a bid to guarantee their future success, Einstein provides an object lesson that genius may take a while to find its way into the open. One of his school teachers, a certain Dr Joseph Degenhart, even secured himself a place in the footnotes of history by errantly concluding of his wayward pupil that he would ‘never get anywhere in life’.

    Albert Einstein entered the world on 14 March 1879, born in the German city of Ulm to Jewish parents, Hermann and Pauline. A sister, Maria (known as Maja), followed two years later. As a Jew in late nineteenth-century Germany, Einstein was instantly cast into the role of the outsider, a status that not only informed his psyche but had a profound influence on how others treated him throughout his life.

    His family was typically bourgeois. His father, a talented mathematician, worked in the burgeoning electricity industry but suffered badly from a lack of business acumen. There was, truth be told, little in the family background to suggest Albert was destined for greatness. He was a late developer when it came to speaking – so much so that the family maid rather cruelly nicknamed him ‘the dopey one’. In addition, he suffered from a condition called echolalia, which led him to repeat phrases several times. While there is little evidence to suggest that Einstein suffered from autism to any significant degree (and indeed, there is much to support the notion that he didn’t), his echolalia has led some to speculate that he was to some extent afflicted.

    Furthermore, he was a daydreamer, which could make him seem a little distant, and he had few friends of his own age as a young child. However, when he was five Einstein had his ‘road to Damascus moment’. If it was a pivotal event for him personally, it would prove no less so for mankind. Einstein was poorly at the time and was recuperating in bed when his father presented him with a gift to distract him – a compass. The way that the needle rooted out north without any mechanical intervention rendered the boy astonished. Einstein himself described the moment as leaving him cold and shivery (good for science but probably not ideal for an already sick child). Here was an object that showed with brilliant clarity the physical effects of an invisible force. From that moment on, Einstein was obsessed by the unseen forces that influence our universe.

    It has become part of folklore that Einstein was not very bright at school, no doubt partly the result of Dr Degenhart’s ill-advised utterance. However, Albert was, by most accounts, a very able student, especially in the field of maths. In that subject he was working to an academic level several years beyond his age. By the time he was twelve, he was, in his own words, ‘thrilled to see that it was possible to find out truths by reasoning alone, without the help of any outside experience’. But while, like his father, he certainly had a talent for mathematics, no one was proffering him as a science visionary. When he attempted to gain a place at university aged sixteen (two years earlier than normal), his test results showed he had some catching up to do in several of his other subjects, including botany, literature and politics.

    In order to get a place at the Zurich Polytechnic, he attended school in the Swiss town of Aarau and came second in his class. Again, he had proven himself a capable student but had hardly set the world alight. (Although his name is of course far better known to us than that of the pupil who beat him into first place.) When he graduated from the Polytechnic in 1900, he was an undistinguished fourth in his class of five. He then made unsuccessful attempts to win an academic position at Zurich and an assortment of other institutions. In 1901, after much frustration, he was forced to take the relatively lowly position of Technical Expert (Class 3) at the Swiss Patent Office in Bern.

    It is chastening, then, to think that only four years later Einstein would produce a series of papers that turned the world of science on its head. Even more remarkably, he did it all under his own steam and in his spare time. Einstein would later suggest that it was perhaps his lack of speed off the mark that helped him achieve his later triumphs. He would reflect: ‘ … I developed so slowly that I began to wonder about space and time only when I was already grown up.’

    Yet even after he had shared his intellectual leaps forward with the rest of the world, it took several more years before he started to get the recognition he warranted. Extraordinarily, he only received his first junior professorship in 1909 – not only nine years after he had graduated, but fully four years after he had published his paper on the special theory of relativity and calculated that E = mc². Nor would a Nobel Prize be his, officially, until 1922.

    All of which surely goes to prove that even for an intellect as stellar as Einstein’s, slow and steady wins the race.

    Be Curious

    ‘I have no special talents. I am only passionately curious.’

    ALBERT EINSTEIN, 1952

    For all that we may wonder at the intellectual processes that propelled Einstein to greatness, he himself seemed to believe that there was nothing so important as his relentless desire to find answers to the really big questions. As he wrote in a letter in his later years: ‘My scientific work is motivated by an irresistible longing to understand the secrets of nature and by no other feelings.’ To Alexander Moszkowski, a friend who published an early biography of him in 1920, Albert explained that it was his inner conviction that the development of science was mainly driven by the need to satisfy the longing for pure knowledge.

    Crucially, he was also convinced that the answers were there, just waiting to be discovered. In 1938 he co-authored The Evolution of Physics: The Growth of Ideas From Early Concepts to Relativity and Quanta. In it, he would note that ‘without the belief in the inner harmony of our world, there could be no science’. His certainty that the great mysteries of our world and the cosmos had rational solutions came to him at a relatively young age. By the time he was around twelve he was certain that nature could be interpreted through the application of mathematical structures, most of which he considered to be ‘relatively simple’ (though those of us without his innate grasp of maths and physics reserve the right to take some issue with that). It was an idea he expanded upon at the Herbert Spencer lecture he gave in Oxford in 1933:

    Our experience hitherto justifies us in believing that nature is the realization of the simplest conceivable mathematical ideas. I am convinced that we can discover by means of purely mathematical constructions the concepts and the laws connecting them with each other, which furnish the key to the understanding of natural phenomena.

    Einstein was thus able to combine a sense of wonder at the world with a belief that he could come to understand what lay behind those wonders. The sickly infant who had marvelled at the seemingly mystical powers of the compass soon found his interests expanding to take in the mysteries of heat and electricity (no wonder, given that the family business was electricity generation). He grew up, too, in a period when science was just starting to come to terms with the physical reality of atoms and molecules (essentially, the unseen building blocks of the universe), while the emerging field of kinetic theory (the motion of particles within matter) was another major area of interest for him in his youth.

    He had his heroes too, citing Galileo and Newton to Moszkowski as the two greatest creative geniuses that science had thrown up. Of these, it was arguably Newton who he most looked up to, an irony given that much of Einstein’s work would throw into chaos many of the Newtonian ‘realities’ that the scientific world had accepted for over two centuries. Writing a foreword in 1931 to a reissue of Newton’s 1704 work Opticks, Einstein said of him: ‘In one person he combined the experimenter, the theorist, the mechanic, and, not the least, the artist of exposition.’ He might have been describing himself, although there are those who would suggest that Einstein’s skills as an experimenter lagged some way behind those of his eminent predecessor.

    He was, though, quite as great a theorist and this was in part due to his conviction that a theory should be boiled down to its simplest state. As he would note in the 1940s, a theory is increasingly impressive the simpler its premises and the greater variety of things that it encompasses. It was his belief that, when one has removed the complex mathematics that may be required to express it, a good theory should be uncomplicated enough to describe that even a child may understand it. The revelation of fundamental truths through an attachment to simplicity had great currency in the age of modernism. Ponder the words of the epoch’s greatest artist, Pablo Picasso, who held that it had taken him four years to learn to paint like Raphael but a lifetime to paint like a

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