The richest man in history, Winston Varga, is a wicked purveyor of bliss and digital fantasies, an omnipotent ruler of all our lives with a dark plan for the humanity. And he has set his deadly plan in motion that no one can stop. Only, perhaps, his nemesis? A fourteen-years-old cypherpunk, Nastassia Bonnet. Nastassia seeks the help of a renegade Nobel laureate in physics and a 16th century alchemist in a last-ditch struggle to rescue her little brother from a certain death and, at the same time, save the humanity from the murderous clutches of Varga and his behemoth multinational conglomerate.
Heavenly Intrigue is the fascinating, true account of the seventeenth-century collaboration between Johannes Kepler and Tycho Brahe that revolutionized our understanding of the universe–and ended in murder.One of history’s greatest geniuses, Kepler laid the foundations of modern physics with his revolutionary laws of planetary motion. But his beautiful mind was beset by demons. Born into poverty and abuse, half-blinded by smallpox, he festered with rage, resentment, and a longing for worldly fame. Brahe, his mentor, was a flamboyant aristocrat who had spent forty years mapping the heavens with unprecedented accuracy–but he refused to share his data with Kepler. With Brahe’s untimely death in Prague in 1601, rumors flew across Europe that he had been murdered. But it took twentieth-century forensics to uncover the poison in his remains, and the detective work of Joshua and Anne-Lee Gilder to identify the prime suspect–the ambitious, envy-ridden Kepler himself. A fast-paced, true-life account that reads like a thriller, Heavenly Intrigue is a remarkable feat of historical re-creation.
The extraordinary, unlikely tale of Tycho Brahe and Johannes Kepler and their enormous contribution to astronomy and understanding of the cosmos is one of the strangest stories in the history of science. Kepler was a poor, devoutly religious teacher with a genius for mathematics. Brahe was an arrogant, extravagant aristocrat who possessed the finest astronomical instruments and observations of the time, before the telescope. Both espoused theories that seem off-the-wall to modern minds, but their fateful meeting in Prague in 1600 was to change the future of science. Set in one of the most turbulent and colourful eras in European history, when medieval was giving way to modern, Tycho and Kepler is a double biography of these two remarkable men.
Nicolaus Copernicus gave the world perhaps the most important scientific insight of the modern age, the theory that the earth and the other planets revolve around the sun. He was also the first to proclaim that the earth rotates on its axis once every twenty-four hours. His theory was truly radical: during his lifetime nearly everyone believed that a perfectly still earth rested in the middle of the cosmos, where all the heavenly bodies revolved around it. One of the transcendent geniuses of the early Renaissance, Copernicus was also a flawed and conflicted person. A cleric who lived during the tumultuous years of the early Reformation, he may have been sympathetic to the teachings of the Lutherans. Although he had taken a vow of celibacy, he kept at least one mistress. Supremely confident intellectually, he hesitated to disseminate his work among other scholars. It fact, he kept his astronomical work a secret, revealing it to only a few intimates, and the manuscript containing his revolutionary theory, which he refined for at least twenty years, remained "hidden among my things." It is unlikely that Copernicus' masterwork would ever have been published if not for a young mathematics professor named Georg Joachim Rheticus. He had heard of Copernicus' ideas, and with his imagination on fire he journeyed hundreds of miles to a land where, as a Lutheran, he was forbidden to travel. Rheticus' meeting with Copernicus in a small cathedral town in northern Poland proved to be one of the most important encounters in history. Copernicus' Secretrecreates the life and world of the scientific genius whose work revolutionized astronomy and altered our understanding of our place in the world. It tells the surprising, little-known story behind the dawn of the scientific age.
The Lord of Uraniborg is a comprehensive biography of Tycho Brahe, father of modern astronomy, famed alchemist and littérateur of the sixteenth-century Danish Renaissance. Written in a lively and engaging style, Victor Thoren's biography offers interesting perspectives on Tycho's life and presents alternative analyses of virtually every aspect of his scientific work. A range of readers interested in astronomy, history of astronomy and the history of science will find this book fascinating.
A fountain of esoteric knowledge for deep truth seekers, this classic work examines the birth and structure of the universe and how everything has the Divine as its source. It also traces the development of humanity--drawing from sacred scriptures, mythology, and legends to give a spiritual view of human beings. Volume III is an index to help readers find any topic easily. Illustrations.
It is the late seventeenth century and still the movement of the planets remains a mystery despite the revolutionary work of Johannes Kepler, Galileo Galilei and Tycho Brahe almost a hundred years previously. Edmond Halley - dynamic adventurer and astronomer - seeks the help of Isaac Newton in unravelling the problem, but though obsessed with understanding the orbits of the planets, Newton has problems of his own which could undermine the essential work. The reclusive mathematician and alchemist has a guilty secret. He stole some of his ideas from Robert Hooke, and the quarrelsome experimentalist is demanding recognition. While capable of the loftiest ideals and theorising, the three men are just as quick to bicker and hold petty grudges which could derail scientific advancement. The men's lives and work clash as Europe is pushed headlong towards the Age of the Enlightenment and science is catapulted into its next seismic collision with religion.
In Measuring Shadows, Raz Chen-Morris demonstrates that a close study of Kepler’s Optics is essential to understanding his astronomical work and his scientific epistemology. He explores Kepler’s radical break from scientific and epistemological traditions and shows how the seventeenth-century astronomer posited new ways to view scientific truth and knowledge. Chen-Morris reveals how Kepler’s ideas about the formation of images on the retina and the geometrics of the camera obscura, as well as his astronomical observations, advanced the argument that physical reality could only be described through artificially produced shadows, reflections, and refractions. Breaking from medieval and Renaissance traditions that insisted upon direct sensory perception, Kepler advocated for instruments as mediators between the eye and physical reality, and for mathematical language to describe motion. It was only through this kind of knowledge, he argued, that observation could produce certainty about the heavens. Not only was this conception of visibility crucial to advancing the early modern understanding of vision and the retina, but it affected how people during that period approached and understood the world around them.
'What Fauber does well is humanize these four residents of the pantheon of science... The story is seldom less than fascinating. A readable, enjoyable contribution to the history of science.' - Kirkus An intimate examination of a scientific family - that of Nicolaus Copernicus, Tycho Brahe, Johannes Kepler and Galileo Galilei. Fauber juxtaposes their scientific work with insight into their personal lives and political considerations, which shaped their pursuit of knowledge. Uniquely, he shows how their intergenerational collaboration made the scientific revolution possible. These brave scientists called each other 'brothers', 'fathers' and 'sons', and laid the foundations of modern science through familial co-work. And though the sixteenth century was far from an open society for women, there were female pioneers in this 'family' as well, including Brahe's sister Sophie, Kepler's mother, and Galileo's daughter. Filled with rich characters and sweeping historical scope, this book reveals how the strong connections between these pillars of intellectual history moved science forward.
