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A boy rides a bicycle down a dusty road. But in his mind, he envisions himself traveling at a speed beyond imagining, on a beam of light. This brilliant mind will one day offer up some of the most revolutionary ideas ever conceived. From a boy endlessly fascinated by the wonders around him, Albert Einstein ultimately grows into a man of genius recognized the world over for profoundly illuminating our understanding of the universe. Jennifer Berne and Vladimir Radunsky invite the reader to travel along with Einstein on a journey full of curiosity, laughter, and scientific discovery. Parents and children alike will appreciate this moving story of the powerful difference imagination can make in any life.
"It's perfect for bedtime reading, and one I'm sure kids will ask to have repeated often - and maybe even get inspired by." - iPadinsight Albert Einstein famously put emphasis on the power of imagination and so does Riding on a Beam of Light. When Einstein won the Nobel Prize, he credited his own boyhood idea of riding on a beam of light with the spark that led him to his theory of special relativity. In this intricately illustrated storybook, lights-out turns into learning as we see the world from young Albert Einstein's point of view, with a sense of fascination and adventure reminicent of Harold from Harold and the Purple Crayon and Max from Where the Wild Things Are. At it's heart is a story about imagination and dreaming, with gorgeous illustrations that capture our grown-up hearts and our children's curiosity. Can young minds change the world? Einstein proved it and now Riding on a Beam of Light brings that message to kids in terms they can celebrate on their scooter. So, turn the light on and off, discuss the speed of light, and have your child imagining what young Albert Einstein imagined as a child. This is a book parents can begin enjoying before the kids understand language (or physics). "If you want your children to be intelligent, read them fairy tales. If you want them to be more intelligent, read them more fairy tales." - Albert Einstein
Genius demystified, the Dummies way! In 1905, Albert Einstein revolutionized modern physics with his theory of relativity. He went on to become a twentieth-century icon-a man whose name and face are synonymous with "genius." Now, at last, ordinary readers can explore Einstein's life and work in this new For Dummies guide. Physicist Carlos Calle chronicles Einstein's career and explains his work-including the theories of special and general relativity-in language that anyone can understand. He shows how Einstein's discoveries affected everything from the development of the atom bomb to the theory of quantum mechanics. He sheds light on Einstein's personal life and beliefs, including his views on religion and politics. And he shows how Einstein's work continues to affect our world today, from nuclear power to space travel to artificial intelligence.
Most people think of mathematicians as solitary, working away in isolation. And, it's true, many of them do. But Paul Erdos never followed the usual path. At the age of four, he could ask you when you were born and then calculate the number of seconds you had been alive in his head. But he didn't learn to butter his own bread until he turned twenty. Instead, he traveled around the world, from one mathematician to the next, collaborating on an astonishing number of publications. With a simple, lyrical text and richly layered illustrations, this is a beautiful introduction to the world of math and a fascinating look at the unique character traits that made "Uncle Paul" a great man. The Boy Who Loved Math by Deborah Heiligman is a Kirkus Reviews Best Book of 2013 and a New York Times Book Review Notable Children's Book of 2013.
A psychiatric patient makes a compelling case for his extraterrestrial home in this “gripping . . . touching and suspenseful” novel—now a major motion picture (Publishers Weekly). Psychiatrist Gene Brewer doesn’t have a diagnosis for the mysterious new patient who calls himself “prot” (rhymes with goat). But this strange and likeable man cannot be—as he claims—from the planet K-PAX. Or can he? Prot knows facts about space that confound experts. He soon reveals Dr. Brewer’s own deepest pains and most sublime longings. And his tales of K-PAX have other patients competing to go along with him when he heads “home”. Now the doctor is racing the clock to find prot’s true identity before he loses a man whose “madness” might just save them all . . .
This book is indexed and includes a DVD with color images and tables. The number of light ion beam (including proton beam) treatment programs is rapidly increasing worldwide; however, there are currently no practical guides to support the acceptance testing, commissioning, planning, and continuing quality assurance of these programs. This book is aimed at those individuals who participate in the delivery and planning aspects of light ion beam treatments. Typically these individuals are medical physicists with responsibilities for calibration and verification of beam delivery, quality assurance, and computerized treatment planning; however other individuals may also find the book useful. This book provides practical recommendations and guides the reader through the steps of the treatment process, focusing on practical details.
Prologue: May 16, 1960, Malibu, California. 1. The Laser Race. 2. Microwaves Are the First Step. 3. Leaping a Few Orders of Magnitude: The Optical Maser. 4. The Outsider's Invention: The Laser. 5. Bell Labs Takes the Early Lead. 6. Stimulating the Emission of Money. 7. A Spreading Interest in the Laser Idea. 8. A Pause to Compare Notes. 9. A Dark Horse Joins the Race. 10. "Everybody knew it was going to happen within months"--Bell Labs Feels Safely in the Lead. 11. A Crash Program at "Pipsqueak Inc.". 12. The Siren Call of the Laser. 13. The Critical Question of Efficiency.
The field of beam physics touches many areas of physics, engineering, and the sciences. In general terms, beams describe ensembles of particles with initial conditions similar enough to be treated together as a group so that the motion is a weakly nonlinear perturbation of a chosen reference particle. Particle beams are used in a variety of areas, ranging from electron microscopes, particle spectrometers, medical radiation facilities, powerful light sources, and astrophysics to large synchrotrons and storage rings such as the LHC at CERN. An Introduction to Beam Physics is based on lectures given at Michigan State University’s Department of Physics and Astronomy, the online VUBeam program, the U.S. Particle Accelerator School, the CERN Academic Training Programme, and various other venues. It is accessible to beginning graduate and upper-division undergraduate students in physics, mathematics, and engineering. The book begins with a historical overview of methods for generating and accelerating beams, highlighting important advances through the eyes of their developers using their original drawings. The book then presents concepts of linear beam optics, transfer matrices, the general equations of motion, and the main techniques used for single- and multi-pass systems. Some advanced nonlinear topics, including the computation of aberrations and a study of resonances, round out the presentation.