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Coming Home

Author: Rosamunde Pilcher
Publisher: Macmillan
ISBN: 1250106443
Size: 62.93 MB
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Against the backdrop of an elegant Cornwall mansion before World War II and a vast continent-spanning canvas during the turbulent war years, this involving story tells of an extraordinary young woman's coming of age, coming to grips with love and sadness, and in every sense of the term, coming home... In 1935, Judith Dunbar is left behind at a British boarding school when her mother and baby sister go off to join her father in Singapore. At Saint Ursula's, her friendship with Loveday Carey-Lewis sweeps her into the privileged, madcap world of the British aristocracy, teaching her about values, friendship, and wealth. But it will be the drama of war, as it wrenches Judith from those she cares about most, that will teach her about courage...and about love. Teeming with marvelous, memorable characters in a novel that is a true masterpiece, Coming Home is a book to be savored, reread, and cherished forever.

Coming Home

Author: Karen Kingsbury
Publisher: Zondervan
ISBN: 0310333644
Size: 51.37 MB
Format: PDF, ePub
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Coming Home is a novel about tremendous victory and unprecedented loss, a story of faith and a forever kind of love, love that will stay with you long after the last page. This stand-alone novel will serve as either a grand introduction or a beautiful conclusion in the saga of the Baxter Family. The Baxters make plans to come together for a summer lakeside reunion, a celebration like they haven’t had in years. But before the big day, the unthinkable happens. As the Baxter Family rallies together, memories come to light in the grief-stricken hours of waiting and praying, memories that bring healing and hope during a time when otherwise darkness might have the final word. In a season that changes all of them, the brilliance of family love overshadows even the valley of heartache as the Baxters draw closer to God and each other. Along the way, secrets are revealed and the truth about the Baxter Family history is finally made known. Ultimately, in this portrait of family love, the Baxters cling to each other and to God’s promise of forever.

Always Coming Home

Author: Ursula K. Le Guin
Publisher: Univ of California Press
ISBN: 9780520227354
Size: 13.25 MB
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An "ethnographic" novel that portrays life in California's Napa Valley as it might be a very long time from now, imagined not as a high tech future but as a time of people once again living close to the land.

The Art Of Coming Home

Author: Craig Storti
Publisher: Nicholas Brealey
ISBN: 193193066X
Size: 53.14 MB
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The best–and bestselling–book for repatriating travelers.

Come Home

Author: Lisa Scottoline
Publisher: St. Martin's Press
ISBN: 1429942320
Size: 19.31 MB
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"This thrilling testament to a mother's relentless love may well be Scottoline's best novel to date."-Library Journal (starred review) Jill Farrow is a suburban mom who has finally gotten her and her daughter's lives back on track after a divorce. She loves being a pediatrician and is about to remarry, while her daughter, Megan, is a happily over-scheduled thirteen-year-old. But Jill's life is turned upside down when her ex-stepdaughter, Abby, shows up and delivers shocking news: Jill's ex-husband is dead. Abby insists that he was murdered-and pleads with Jill to help find his killer. Jill reluctantly agrees to make a few inquiries, and soon discovers that the story doesn't add up...As she digs deeper, her actions threaten to rip apart her new family, destroy their hard-earned happiness, and even endanger her own life. Yet how can Jill turn her back on a child she loves and once called her own? What are the limits of love, loss, and family? "Relentless...jaw-dropping."-David Baldacci

Coming Home

Author: Greg Ruth
Publisher: Feiwel & Friends
ISBN: 1466878452
Size: 47.90 MB
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Every day, soldiers leave their families to protect others. We love them. We miss them when they're gone. And we want them all to come home. They are our heroes.

Coming Home

Author: James Lowell Strickland
Publisher: Rizzoli International Publications
ISBN: 0847838269
Size: 58.56 MB
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A photo book of home interiors and exteriors features country houses, mountain retreats, and coastal cottages located in and around the American South.

Coming Home

Author: Roger D. Launius
Publisher: Government Printing Office
ISBN: 9780160910647
Size: 18.20 MB
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This study represents a means of highlighting the myriad of technological developments that made possible the safe reentry and return from space and the landing on Earth. This story extends back at least to the work of Walter Hohmann and Eugen Sänger in Germany in the 1920s and involved numerous aerospace engineers at the National Advisory Committee for Aeronautics (NACA)/NASA Langley and the Lewis (now the John H. Glenn Research Center at Lewis Field) and Ames Research Centers. For example, researchers such as H. Julian Allen and Alfred J. Eggers, Jr., at Ames pioneered blunt-body reentry techniques and ablative thermal protection systems in the 1950s, while Francis M. Rogallo at Langley developed creative parasail concepts that informed the development of the recovery systems of numerous reentry vehicles. The chapters that follow relate in a chronological manner the way in which NASA has approached the challenge of reentering the atmosphere after a space mission and the technologies associated with safely dealing with the friction of this encounter and the methods used for landing safely on Earth. The first chapter explores the conceptual efforts to understand the nature of flight to and from space and the major developments in the technologies of reentry and landing that took place before the beginning of the space age in 1957. Chapter 2 also investigates the methods of landing once a spacecraft reaches subsonic speeds. Once the orbital energy is converted and the heat of reentry dissipated, the spacecraft must still be landed gently in the ocean or on land. Virtually all of the early concepts for human space flight involve spaceplanes that flew on wings to a runway landing; Sänger''s antipodal bomber of the 1940s did so as did von Braun''s popular concepts. However, these proved impractical for launch vehicles available during the 1950s, and capsule concepts that returned to Earth via parachute proliferated largely because they represented the "art of the possible" at the time. Chapter 3 tells the story of reentry from space and landing on Earth from the beginning of the space age through the end of the Apollo program. During that period, NASA and other agencies concerned with the subject developed capsules with blunt-body ablative heat shields and recovery systems that relied on parachutes. The Department of Defense (DOD) tested this reentry concept publicly with Project SCORE (Signal Communication by Orbiting Relay Equipment) in 1958 and employed it throughout the CORONA satellite reconnaissance program of the 1960s, snatching in midair return capsules containing unprocessed surveillance footage dangling beneath parachutes. With the Mercury program, astronauts rode a blunt-body capsule with an ablative heat shield to a water landing, where the Navy rescued them. Project Gemini eventually used a similar approach, but NASA engineers experimented with a Rogallo wing and a proposed landing at the Flight Research Center (now Dryden Flight Research Center) on skids similar to those employed on the X-15. When the Rogallo wing failed to make the rapid progress required, NASA returned to the parachute concept used in Mercury and essentially used the same approach in Apollo, although with greatly improved ablative heat shields. At the same time, the DOD pursued a spaceplane concept with the X-20 Dyna-Soar orbital vehicle that would have replaced the ablative heat shield with a reusable metallic heat shield and a lifting reentry that allowed the pilot to fly the vehicle to a runway landing. This is also the general approach pursued by the DOD with its Aerothermodynamic Elastic Structural Systems Environmental Tests (ASSET) and Martin X-23A Precision Reentry Including Maneuvering reEntry (PRIME) vehicles. NASA and DOD also experimented with lifting body concepts. Engineers were able to make both of those approaches to reentry and landing work, making tradeoffs on various other capabilities in the process. The eventual direction of these programs was influenced more by technological choices than by obvious decisions. Even as Apollo was reaching fruition in the late 1960s, NASA made the decision to abandon blunt-body capsules with ablative heat shields and recovery systems that relied on parachutes for its human space flight program. Instead, as shown in chapters 4 and 5, it chose to build the Space Shuttle, a winged reusable vehicle that still had a blunt-body configuration but used a new ceramic tile and reinforced carbon-carbon for its thermal protection system. Parachutes were also jettisoned in favor of a delta-wing aerodynamic concept that allowed runway landings. Despite many challenges and the loss of one vehicle and its crew due to a failure with the thermal protection system, this approach has worked relatively effectively since first flown in 1981. Although NASA engineers debated the necessity of including jet engines on the Shuttle, it employed the unpowered landing concept demonstrated by the X-15 and lifting body programs at the Flight Research Center during the 1960s. These chapters lay out that effort and what it has meant for returning from space and landing on Earth. The concluding chapter explores efforts to develop new reentry and landing concepts in the 1990s and beyond. During this period, a series of ideas emerged on reentry and landing concepts, including the return of a metallic heat shield for the National Aero-Space Plane and the X-33, the Roton rotary rocket, the DC-X powered landing concept, and the Crew Exploration Vehicle (CEV) of the Constellation program between 2005 and 2009. In every case, these projects proved too technologically difficult and the funding was too sparse for success. Even the CEV, a program that returns to a capsule concept with a blunt-body ablative heat shield and parachutes (or perhaps a Rogallo wing) to return to Earth (or, perhaps, the ocean), proved a challenge for engineers. The recovery of scientific sample return missions to Earth, both with the loss of Genesis and the successful return of Stardust, suggests that these issues are not exclusive to the human space flight community. As this work is completed, NASA has embarked on the Commercial Crew Development (CCDev) program in which four firms are competing for funding to complete work on their vehicles: * Blue Origin, Kent, WA--a biconic capsule that could be launched on an Atlas rocket. * Sierra Nevada Corporation, Louisville, CO--Dream Chaser lifting body, which could be deployed from the Virgin Galactic * White Knight Two carrier aircraft for flight tests. * Space Exploration Technologies (SpaceX), Hawthorne, CA-- * Dragon capsule spacecraft; also a partial lifting body concept to be launched on the Falcon 9 heavy lifter. * The Boeing Company, Houston, TX--a 7-person spacecraft, including both personnel and cargo configurations designed to be launched by several different rockets, and to be reusable up to 10 times. These new ideas and a broad set of actions stimulated through the CCDev program suggest that reentry and recovery from space remains an unsettled issue in space flight. This book''s concluding chapter suggests that our understanding of the longstanding complexities associated with returning to Earth safely has benefited from changes in technology and deeper knowledge of the process; however, these issues are still hotly debated and disagreement remains about how best to accomplish these challenging tasks. Engineers have had success with several different approaches to resolving the challenges of reentry and landing. Discovering the optimal, most elegant solutions requires diligence and creativity. This history seeks to tell this complex story in a compelling, sophisticated, and technically sound manner for an audience that understands little about the evolution of flight technology. Bits and pieces of this history exist in other publications, but often overlooked is the critical role these concepts played in making a safe return to Earth possible. Moreover, the challenges, mysteries, and outcomes that these programs'' members wrestled with offer object lessons in how earlier generations of engineers sought optimal solutions and made tradeoffs. With the CCDev program--a multiphase program intended to stimulate the development of privately operated crew vehicles to low-Earth orbit currently underway--NASA