Pippa Ingleside will do anything to escape her ruthless uncle, but even she is surprised when her previously dormant powers aid her. Surprised and afraid. Her newly discovered abilities may have saved her but they condemn her at the same time. Disguised as a boy, she travels to the home of Lord Ashbourne to find her one and only friend. To maintain her disguise and put a roof over her head, Pippa accepts a job as page of the wardrobe to Ash, a man as mysterious as he is dangerous. If he discovers her lie, he'll send her back to her uncle and her witchcraft will be exposed to the authorities. As the lies build it gets harder for Pippa to maintain her disguise, especially when she falls in love with the man she must serve. Her only hope is to find her friend. But when the friend is murdered, Ash investigates and where he goes, his page goes too. Together they uncover a web of secrets that could destroy Ash and condemn Pippa. But that's nothing compared to what happens when he discovers she's a woman...
This book describes a program of research in computable structure theory. The goal is to find definability conditions corresponding to bounds on complexity which persist under isomorphism. The results apply to familiar kinds of structures (groups, fields, vector spaces, linear orderings Boolean algebras, Abelian p-groups, models of arithmetic). There are many interesting results already, but there are also many natural questions still to be answered. The book is self-contained in that it includes necessary background material from recursion theory (ordinal notations, the hyperarithmetical hierarchy) and model theory (infinitary formulas, consistency properties).
One marker of the majesty of ancient Rome is its surviving architectural legacy, the stunning remains of which are scattered throughout the circum-Mediterranean landscape. Surprisingly, one truly remarkable aspect of this heritage remains relatively unknown. There exists beneath the waters of the Mediterranean the physical remnants of a vast maritime infrastructure that sustained and connected the western world’s first global empire and economy. The key to this incredible accomplishment and to the survival of structures in the hostile environment of the sea for two thousand years was maritime concrete, a building material invented and then employed by Roman builders on a grand scale to construct harbor installations anywhere they were needed, rather than only in locations with advantageous geography or topography. This book explains how the Romans built so successfully in the sea with their new invention. The story is a stimulating mix of archaeological, geological, historical and chemical research, with relevance to both ancient and modern technology. It also breaks new ground in bridging the gap between science and the humanities by integrating analytical materials science, history, and archaeology, along with underwater exploration. The book will be of interest to anyone interested in Roman architecture and engineering, and it will hold special interest for geologists and mineralogists studying the material characteristics of pyroclastic volcanic rocks and their alteration in seawater brines. The demonstrable durability and longevity of Roman maritime concrete structures may be of special interest to engineers working on cementing materials appropriate for the long-term storage of hazardous substances such as radioactive waste. A pioneering methodology was used to bore into maritime structures both on land and in the sea to collect concrete cores for testing in the research laboratories of the CTG Italcementi Group, a leading cement producer in Italy, the University of Berkeley, and elsewhere. The resulting mechanical, chemical and physical analysis of 36 concrete samples taken from 11 sites in Italy and the eastern Mediterranean have helped fill many gaps in our knowledge of how the Romans built in the sea. To gain even more knowledge of the ancient maritime technology, the directors of the Roman Maritime Concrete Study (ROMACONS) engaged in an ambitious and unique experimental archaeological project – the construction underwater of a reproduction of a Roman concrete pier or pila. The same raw materials and tools available to the ancient builders were employed to produce a reproduction concrete structure that appears to be remarkably similar to the ancient one studied during ROMACON’s fieldwork between 2002-2009. This volume reveals a remarkable and unique archaeological project that highlights the synergy that now exists between the humanities and science in our continuing efforts to understand the past. It will quickly become a standard research tool for all interested in Roman building both in the sea and on land, and in the history and chemistry of marine concrete. The authors also hope that the data and observations it presents will stimulate further research by scholars and students into related topics, since we have so much more to learn in the years ahead.
I love you... Nox's tear-filled words echo across the sand as she and Amaris are torn apart. They've battled fiercely to find each other again, and have barely reunited when Amaris is taken away by the queen's dragon. Injured and desperate, Amaris is forced to navigate her new surroundings with the help of Raascot's enigmatic general if she hopes to stay alive. At the same time, across the land and running out of options, Nox forms a partnership with the continent's league of peacekeeping assassins, begging their help to find Amaris and forge some stability between the kingdoms. As wounds heal and new relationships blossom, Nox and Amaris must confront impossible obstacles and stretch their magic to its limits if they are ever to create a world that might finally reunite them for good. The odds are narrow, the stakes are high, and one question remains: Is it fate, love, or something else entirely that binds these two women together? In the enthralling follow-up to The Night and Its Moon, bestselling author Piper CJ redefines love and trust through an authentic fantastical portrayal of queer experiences, found family, and the gray areas that define us all.
All I've ever wanted... Nox and Amaris learn their dreams of reunion come at an unspeakable cost. Passion and politics collide as the two young women learn to navigate an unknown future in the kingdom of Raascot. With new titles thrust upon them, Nox and Amaris find themselves more uncertain than ever of who they are meant to become—both to their people and to each other. Humans, fae, and monsters are on the precipice of war, and time is running short in their search for answers. Victory will take more than just battles as alliances shift and new threats emerge. To have a chance at stopping their enemies, securing the continent's succession, and uncovering the truth of their bond, the two women must find a way to break the curse on Raascot's fae and face their fate once and for all...and hope that they survive it.
The Southern Andes, stretching from the subtropics to the subantarctic, are ideally located for palaeoenvironmental research. Over the broad and continuous latitudinal extent of the cordillera (-24˚), vegetation is adjusted to climatic gradients and atmospheric circulation patterns. Opposed to the prevailing Southern Westerlies, the Southern Andes are positioned to receive the brunt of the winds, while biota are set to record the shifting of incoming storm systems over time. Sequential, latitudinally-placed, sedimentary deposits containing microfossils and macroremains, as archives of past vegetation and climate, make possible the detection of equatorward and poleward displacement of plant communities and, as a consequence, changes in climatic controls. No terrestrial setting in the Southern Hemisphere is so unique for palaeoenvironmental reconstruction during and since the last ice age. Twenty radiocarbon-dated fossil pollen and spore records chosen to place emphasis on the last ice age include high-resolution, submillennial data sets that also cover the Holocene, thus providing contrast between present interglacial and past glacial ages. From a refined data base, the records constitute the foundation for interpreting factors responsible for vegetation change over >50,000 14C years, glacial-interglacial migration and refugial patterns for a diversity of taxa, and the extent of intrahemispheric and polar hemispheric synchroneity versus asynchroneity.
This industrially relevant resource covers all established and emerging analytical methods for the deformulation of polymeric materials, with emphasis on the non-polymeric components. Each technique is evaluated on its technical and industrial merits. Emphasis is on understanding (principles and characteristics) and industrial applicability. Extensively illustrated throughout with over 200 figures, 400 tables, and 3,000 references.
An addictive fantasy romance from TikTok sensation Piper CJ, now newly revised and edited. Two orphans grow into powerful young women as they face countless threats to find their way back to each other. Farleigh is just an orphanage. At least, that's what the church would have the people believe, but beautiful orphans Nox and fae-touched Amaris know better. They are commodities for sale, available for purchase by the highest bidder. So when the madame of a notorious brothel in a far-off city offers a king's ransom to purchase Amaris, Nox ends up taking her place — while Amaris is drawn away to the mountains, home of mysterious assassins. Even as they take up new lives and identities, Nox and Amaris never forget one thing: they will stop at nothing to reunite. But the threat of war looms overhead, and the two are inevitably swept into a conflict between human and fae, magic and mundane. With strange new alliances, untested powers, and a bond that neither time nor distance could possibly break, the fate of the realms lies in the hands of two orphans — and the love they hold for each other.
One marker of the majesty of ancient Rome is its surviving architectural legacy, the stunning remains of which are scattered throughout the circum-Mediterranean landscape. Surprisingly, one truly remarkable aspect of this heritage remains relatively unknown. There exists beneath the waters of the Mediterranean the physical remnants of a vast maritime infrastructure that sustained and connected the western world’s first global empire and economy. The key to this incredible accomplishment and to the survival of structures in the hostile environment of the sea for two thousand years was maritime concrete, a building material invented and then employed by Roman builders on a grand scale to construct harbor installations anywhere they were needed, rather than only in locations with advantageous geography or topography. This book explains how the Romans built so successfully in the sea with their new invention. The story is a stimulating mix of archaeological, geological, historical and chemical research, with relevance to both ancient and modern technology. It also breaks new ground in bridging the gap between science and the humanities by integrating analytical materials science, history, and archaeology, along with underwater exploration. The book will be of interest to anyone interested in Roman architecture and engineering, and it will hold special interest for geologists and mineralogists studying the material characteristics of pyroclastic volcanic rocks and their alteration in seawater brines. The demonstrable durability and longevity of Roman maritime concrete structures may be of special interest to engineers working on cementing materials appropriate for the long-term storage of hazardous substances such as radioactive waste. A pioneering methodology was used to bore into maritime structures both on land and in the sea to collect concrete cores for testing in the research laboratories of the CTG Italcementi Group, a leading cement producer in Italy, the University of Berkeley, and elsewhere. The resulting mechanical, chemical and physical analysis of 36 concrete samples taken from 11 sites in Italy and the eastern Mediterranean have helped fill many gaps in our knowledge of how the Romans built in the sea. To gain even more knowledge of the ancient maritime technology, the directors of the Roman Maritime Concrete Study (ROMACONS) engaged in an ambitious and unique experimental archaeological project – the construction underwater of a reproduction of a Roman concrete pier or pila. The same raw materials and tools available to the ancient builders were employed to produce a reproduction concrete structure that appears to be remarkably similar to the ancient one studied during ROMACON’s fieldwork between 2002-2009. This volume reveals a remarkable and unique archaeological project that highlights the synergy that now exists between the humanities and science in our continuing efforts to understand the past. It will quickly become a standard research tool for all interested in Roman building both in the sea and on land, and in the history and chemistry of marine concrete. The authors also hope that the data and observations it presents will stimulate further research by scholars and students into related topics, since we have so much more to learn in the years ahead.
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