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Learn how Nancy Grace Roman followed her lifelong passion for astronomy and eventually became NASA's first chief of astronomya position that would allow her to shape the field for more than fifty years.
A Mighty Girl's 2019 Books of the Year An inspiring look at the scientist who became "The Mother of Hubble." This empowering picture book biography tells the story of Nancy Grace Roman, the astronomer who overcame obstacles like weak eyesight and teachers who discouraged women from pursuing astronomy to lead the NASA team that built the Hubble Space Telescope. A testament to women in scientific careers and a record of an important NASA milestone.
Have you ever looked up at the twinkling stars in the night sky? Nancy Grace Roman looked up and never looked back. Roman was fascinated with the stars ever since her mother showed her the constellations. She read every book on astronomy she could find and even started her own neighborhood astronomy club for girls. But many of the people around her didn't think science was the right field for a woman. Academic advisers in high school and even college tried to dissuade Roman from pursuing astronomy. She worked hard to eventually become NASA's first Chief of Astronomy and, ultimately, the "Mother of Hubble." Learn how Roman's passion for astronomy and her tireless work on the Hubble Space Telescope project helped scientists capture breathtaking images of deep space.
The Hubble Space Telescope has transformed our understanding of the universe, revealing new information about its age and evolution, the life cycle of stars, and the existence of black holes, among other discoveries. This book tells the story of the Hubble Space Telescope and the people responsible for it.
The story of the people who see beyond the stars—an astronomy book for adults still spellbound by the night sky Embark on a captivating cosmic journey with The Last Stargazers. This enthralling book takes you on an awe-inspiring exploration of the night sky, offering a unique perspective on the vast celestial wonders that have fascinated humanity for millennia. Written by astrophysicist Dr. Emily Levesque, The Last Stargazers combines scientific expertise with captivating storytelling, making it the perfect companion for both astronomy enthusiasts and curious minds. Dr. Levesque's passion for the stars shines through as she shares her personal experiences and encounters while working at some of the world's most renowned observatories. Delve into the fascinating world of astronomy as you uncover the secrets of distant galaxies, supernovae, and elusive celestial phenomena. Discover: Inspiring narratives: Dr. Levesque's engaging storytelling transports readers to the front lines of astronomical research, providing a behind-the-scenes glimpse into the life of a modern-day stargazer. Cutting-edge research: Stay up to date with the latest scientific breakthroughs and advancements in the field of astronomy, as Dr. Levesque shares her firsthand experiences and encounters. Accessible explanations: Complex astronomical concepts are made understandable and relatable, allowing readers of all backgrounds to appreciate and comprehend the wonders of the cosmos. Personal perspective: Gain insight into the personal journey of a dedicated scientist as she navigates the challenges and triumphs of studying the stars. Whether you're a seasoned astronomer, a casual stargazer, or simply someone with a curiosity about the universe, The Last Stargazers is an indispensable guide that will ignite your passion for the cosmos and leave you in awe of the wonders that lie beyond. Take a leap into the vast unknown on a celestial odyssey like no other.
This book focuses on the most recent, relevant, comprehensive and significant aspects in the well-established multidisciplinary field Laboratory Astrophysics. It focuses on astrophysical environments, which include asteroids, comets, the interstellar medium, and circumstellar and circumplanetary regions. Its scope lies between physics and chemistry, since it explores physical properties of the gas, ice, and dust present in those systems, as well as chemical reactions occurring in the gas phase, the bare dust surface, or in the ice bulk and its surface. Each chapter provides the necessary mathematical background to understand the subject, followed by a case study of the corresponding system. The book provides adequate material to help interpret the observations, or the computer models of astrophysical environments. It introduces and describes the use of spectroscopic tools for laboratory astrophysics. This book is mainly addressed to PhD graduates working in this field or observers and modelers searching for information on ice and dust processes.
"Margaret Hamilton wrote the computer software that helped humans land on the moon. Learn about Hamilton's fascinating career, including her role in the moon landing."--
I wrote this book because I wanted to learn more about interstel lar flight. Not the Star Trek notion of tearing around the Galaxy in a huge spaceship-that was obviously beyond existing tech nology-but a more realistic mission. In 1989 I had videotaped Voyager 2's encounter with Neptune and watched the drama of robotic exploration over and over again. I started to wonder whether we could do something similar with Alpha Centauri, the nearest star to the Sun. Everyone seemed to agree that manned flight to the stars was out of the question, if not permanently then for the indefinitely foreseeable future. But surely we could do something with robotics. And if we could figure out a theoretical way to do it, how far were we from the actual technology that would make it happen? In other words, what was the state of our interstellar technology today, those concepts and systems that might translate into a Voyager to the stars? Finding answers meant talking to people inside and outside of NASA. I was surprised to learn that there is a large literature of interstellar flight. Nobody knows for sure how to propel a space craft fast enough to make the interstellar crossing within a time scale that would fit the conventional idea of a mission, but there are candidate systems that are under active investigation. Some of this effort begins with small systems that we'll use near the Earth and later hope to extend to deep space missions.
The steering committee was specifically asked to (1) provide an overview of the current state of astronomy and astrophysics science, and technology research in support of that science, with connections to other scientific areas where appropriate; (2) identify the most compelling science challenges and frontiers in astronomy and astrophysics, which shall motivate the committee’s strategy for the future; (3) develop a comprehensive research strategy to advance the frontiers of astronomy and astrophysics for the period 2022-2032 that will include identifying, recommending, and ranking the highest-priority research activities; (4) utilize and recommend decision rules, where appropriate, that can accommodate significant but reasonable deviations in the projected budget or changes in urgency precipitated by new discoveries or unanticipated competitive activities; (5) assess the state of the profession, including workforce and demographic issues in the field, identify areas of concern and importance to the community, and where possible, provide specific, actionable, and practical recommendations to the agencies and community to address these areas. This report proposes a broad, integrated plan for space- and ground-based astronomy and astrophysics for the decade 2023-2032. It also lays the foundations for further advances in the following decade.