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“The great hurricane that devastated Galveston in 1900 is the centerpiece of [this] tightly knit novel. The writing is powerful. A fine work, integrating nature with character.” —The Horn Book, starred review “Nelson’s strong sense of place, poetic style and inspired characterization make this far more than just an enthralling adventure.” —Kirkus Reviews
With 16 pages of black-and-white illustrations In Storm Kings, Lee Sandlin retraces America's fascination and unique relationship to tornadoes and the weather. From Ben Franklin's early experiments, to "the great storm debates" of the nineteenth century, to heartland life in the early twentieth century, Sandlin shows how tornado chasing helped foster the birth of meteorology, recreating with vivid descriptions some of the most devastating storms in America's history. Drawing on memoirs, letters, eyewitness testimonies, and numerous archives, Sandlin brings to life the forgotten characters and scientists that changed a nation and how successive generations came to understand and finally coexist with the spiraling menace that could erase lives and whole towns in an instant.
Sam and Callum are still stranded in the parallel world, having been pulled across by the dangerous energy of the Bermuda Triangle. Now they've found Sam's mum they are desperate to find a way home... at any cost. Meanwhile Niamh is convinced that her brother is alive and not dead as the authorities suspect, but she needs to find out what really happened to the boys before her father is convicted of their murder.
From the bestselling author of The Devil in the White City, here is the true story of the deadliest hurricane in history. National Bestseller September 8, 1900, began innocently in the seaside town of Galveston, Texas. Even Isaac Cline, resident meteorologist for the U.S. Weather Bureau failed to grasp the true meaning of the strange deep-sea swells and peculiar winds that greeted the city that morning. Mere hours later, Galveston found itself submerged in a monster hurricane that completely destroyed the town and killed over six thousand people in what remains the greatest natural disaster in American history--and Isaac Cline found himself the victim of a devastating personal tragedy. Using Cline's own telegrams, letters, and reports, the testimony of scores of survivors, and our latest understanding of the science of hurricanes, Erik Larson builds a chronicle of one man's heroic struggle and fatal miscalculation in the face of a storm of unimaginable magnitude. Riveting, powerful, and unbearably suspenseful, Isaac's Storm is the story of what can happen when human arrogance meets the great uncontrollable force of nature.
Sable Brennus, Prince of Storms, is not a demon to be trifled with. He's endured far worse than hell in the centuries he's been alive, and combined with his fierce consort, powerful friends, and an unparalleled collection of grimoires, he's a near-unstoppable force.Enemies old and new are out for blood, though, and they'll do anything to get it. That includes challenging not just Sable, but some of the most powerful figures in the paranormal world, from the Prince of Dragons to the son of Death.If Sable and his friends are going to save the day, and possibly the world, it's going to take everything they've got. If they want to survive, it's going to take even more than that...
Huge, towering clouds build up in the sky—it's a super cell. The Doppler radar indicates that the system is rotating. But is there a funnel? Is it touching the ground? Only a storm chaser can confirm when a tornado is present—and help meteorologists warn nearby towns. Whenever severe weather threatens, storm chasers hit the road to hunt for tornadoes, hurricanes, or violent storms. Some drive thousands of miles in just a few days as they follow a storm system from Iowa to Texas. Others serve their cities and towns by taking photos from their backyards and phoning in storm details to local weather stations. Specially trained Hurricane Hunters hop into aircraft packed with scientific instruments to fly deep into powerful hurricanes, hoping to reach the eye of the storm. Are storm chasers a bunch of foolish daredevils? Not at all. Many are scientists while others are professional photographers and videographers. Storm chasers arm themselves with training about severe weather, use sophisticated instruments, and follow safety guidelines. In Chasing the Storm, you'll meet real storm chasers and meteorologists, hear their stories, and discover how they do their work. You'll learn tornado basics, get a great window into the science of meteorology, and learn how to pursue a career in the field. You might even decide to become a storm chaser yourself!
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The saga of the greatest tornado chaser who ever lived: a tale of obsession and daring and an extraordinary account of humanity’s high-stakes race to understand nature’s fiercest phenomenon from Brantley Hargrove, “one of today’s great science writers” (The Washington Post). At the turn of the twenty-first century, the tornado was one of the last true mysteries of the modern world. It was a monster that ravaged the American heartland a thousand times each year, yet science’s every effort to divine its inner workings had ended in failure. Researchers all but gave up, until the arrival of an outsider. In a field of PhDs, Tim Samaras didn’t attend a day of college in his life. He chased storms with brilliant tools of his own invention and pushed closer to the tornado than anyone else ever dared. When he achieved what meteorologists had deemed impossible, it was as if he had snatched the fire of the gods. Yet even as he transformed the field, Samaras kept on pushing. As his ambitions grew, so did the risks. And when he finally met his match—in a faceoff against the largest tornado ever recorded—it upended everything he thought he knew. Brantley Hargrove delivers a “cinematically thrilling and scientifically wonky” (Outside) tale, chronicling the life of Tim Samaras in all its triumph and tragedy. Hargrove takes readers inside the thrill of the chase, the captivating science of tornadoes, and the remarkable character of a man who walked the line between life and death in pursuit of knowledge. The Man Who Caught the Storm is an “adrenaline rush of a tornado chase…Readers from all across the spectrum will enjoy this” (Library Journal, starred review) unforgettable exploration of obsession and the extremes of the natural world.
Electrical processes take place in all planetary atmospheres. There is evidence for lightning on Venus, Jupiter, Saturn, Uranus and Neptune, it is possible on Mars and Titan, and cosmic rays ionise every atmosphere, leading to charged droplets and particles. Controversy surrounds the role of atmospheric electricity in physical climate processes on Earth; here, a comparative approach is employed to review the role of electrification in the atmospheres of other planets and their moons. This book reviews the theory, and, where available, measurements, of planetary atmospheric electricity, taken to include ion production and ion-aerosol interactions. The conditions necessary for a global atmospheric electric circuit similar to Earth’s, and the likelihood of meeting these conditions in other planetary atmospheres, are briefly discussed. Atmospheric electrification is more important at planets receiving little solar radiation, increasing the relative significance of electrical forces. Nucleation onto atmospheric ions has been predicted to affect the evolution and lifetime of haze layers on Titan, Neptune and Triton. For planets closer to Earth, heating from solar radiation dominates atmospheric circulations. Mars may have a global circuit analogous to the terrestrial model, but based on electrical discharges from dust storms, and Titan may have a similar global circuit, based on transfer of charged raindrops. There is an increasing need for direct measurements of planetary atmospheric electrification, in particular on Mars, to assess the risk for future unmanned and manned missions. Theoretical understanding could be increased by cross-disciplinary work to modify and update models and parameterisations initially developed for a specific atmosphere, to make them more broadly applicable to other planetary atmospheres. The possibility of electrical processes in the atmospheres of exoplanets is also discussed.