This timely collection of original essays traces the migration of synthetic chemicals from the laboratory to the factory and then into the environment, bodies and communities. Turning our attention to the impact these chemicals have on our ecosystems, human health, social organization and political processes, the contributors break new ground by focusing on the production and distribution of these potentially hazardous agents themselves rather than just detailing their effects.
This timely collection of original essays traces the migration of synthetic chemicals from the laboratory to the factory and then into the environment, bodies and communities. Turning our attention to the impact these chemicals have on our ecosystems, human health, social organization and political processes, the contributors break new ground by focusing on the production and distribution of these potentially hazardous agents themselves rather than just detailing their effects.
If the solar system is regarded as a moving mass point system, then both the planet m and the sun M move around the solar system mass center O. According to the motion law of the mass point system and the centripetal force formula of the curve, it can be determined through theoretical analysis and mathematical derivation: (1) Kepler's law of planetary motion contradicts the motion rules of mass point systems. (2) The universal gravitational force F between planet m and sun M. K is the new gravitational constant. The force F' on the object m in the inertial frame S'. In the formula, V' is the velocity of the object m in the inertial frame S', and u is the velocity of the inertial frame S' in the cosmic space reference frame. In addition, the author designed three new optical experiments based on the light interference theory to verify whether the principle of constant speed of light conforms to objective facts. Experiment 1. Using the new front and rear hole laser interferometer for verification; Experiment 2. Verification of using long and short optical path Michelson interferometers; Experiment 3. Verification of using a double-hole interferometer.
Imagining a future in which humans fundamentally reshape the natural world using nanotechnology, synthetic biology, de-extinction, and climate engineering. We have all heard that there are no longer any places left on Earth untouched by humans. The significance of this goes beyond statistics documenting melting glaciers and shrinking species counts. It signals a new geological epoch. In The Synthetic Age, Christopher Preston argues that what is most startling about this coming epoch is not only how much impact humans have had but, more important, how much deliberate shaping they will start to do. Emerging technologies promise to give us the power to take over some of Nature's most basic operations. It is not just that we are exiting the Holocene and entering the Anthropocene; it is that we are leaving behind the time in which planetary change is just the unintended consequence of unbridled industrialism. A world designed by engineers and technicians means the birth of the planet's first Synthetic Age. Preston describes a range of technologies that will reconfigure Earth's very metabolism: nanotechnologies that can restructure natural forms of matter; “molecular manufacturing” that offers unlimited repurposing; synthetic biology's potential to build, not just read, a genome; “biological mini-machines” that can outdesign evolution; the relocation and resurrection of species; and climate engineering attempts to manage solar radiation by synthesizing a volcanic haze, cool surface temperatures by increasing the brightness of clouds, and remove carbon from the atmosphere with artificial trees that capture carbon from the breeze. What does it mean when humans shift from being caretakers of the Earth to being shapers of it? And in whom should we trust to decide the contours of our synthetic future? These questions are too important to be left to the engineers.
From EverQuest to World of Warcraft, online games have evolved from the exclusive domain of computer geeks into an extraordinarily lucrative staple of the entertainment industry. People of all ages and from all walks of life now spend thousands of hours—and dollars—partaking in this popular new brand of escapism. But the line between fantasy and reality is starting to blur. Players have created virtual societies with governments and economies of their own whose currencies now trade against the dollar on eBay at rates higher than the yen. And the players who inhabit these synthetic worlds are starting to spend more time online than at their day jobs. In Synthetic Worlds, Edward Castronova offers the first comprehensive look at the online game industry, exploring its implications for business and culture alike. He starts with the players, giving us a revealing look into the everyday lives of the gamers—outlining what they do in their synthetic worlds and why. He then describes the economies inside these worlds to show how they might dramatically affect real world financial systems, from potential disruptions of markets to new business horizons. Ultimately, he explores the long-term social consequences of online games: If players can inhabit worlds that are more alluring and gratifying than reality, then how can the real world ever compete? Will a day ever come when we spend more time in these synthetic worlds than in our own? Or even more startling, will a day ever come when such questions no longer sound alarmist but instead seem obsolete? With more than ten million active players worldwide—and with Microsoft and Sony pouring hundreds of millions of dollars into video game development—online games have become too big to ignore. Synthetic Worlds spearheads our efforts to come to terms with this virtual reality and its concrete effects. “Illuminating. . . . Castronova’s analysis of the economics of fun is intriguing. Virtual-world economies are designed to make the resulting game interesting and enjoyable for their inhabitants. Many games follow a rags-to-riches storyline, for example. But how can all the players end up in the top 10%? Simple: the upwardly mobile human players need only be a subset of the world's population. An underclass of computer-controlled 'bot' citizens, meanwhile, stays poor forever. Mr. Castronova explains all this with clarity, wit, and a merciful lack of academic jargon.”—The Economist “Synthetic Worlds is a surprisingly profound book about the social, political, and economic issues arising from the emergence of vast multiplayer games on the Internet. What Castronova has realized is that these games, where players contribute considerable labor in exchange for things they value, are not merely like real economies, they are real economies, displaying inflation, fraud, Chinese sweatshops, and some surprising in-game innovations.”—Tim Harford, Chronicle of Higher Education
In 2013, a Dutch scientist unveiled the world’s first laboratory-created hamburger. Since then, the idea of producing meat, not from live animals but from carefully cultured tissues, has spread like wildfire through the media. Meanwhile, cultured meat researchers race against population growth and climate change in an effort to make sustainable protein. Meat Planet explores the quest to generate meat in the lab—a substance sometimes called “cultured meat”—and asks what it means to imagine that this is the future of food. Neither an advocate nor a critic of cultured meat, Benjamin Aldes Wurgaft spent five years researching the phenomenon. In Meat Planet, he reveals how debates about lab-grown meat reach beyond debates about food, examining the links between appetite, growth, and capitalism. Could satiating the growing appetite for meat actually lead to our undoing? Are we simply using one technology to undo the damage caused by another? Like all problems in our food system, the meat problem is not merely a problem of production. It is intrinsically social and political, and it demands that we examine questions of justice and desirable modes of living in a shared and finite world. Benjamin Wurgaft tells a story that could utterly transform the way we think of animals, the way we relate to farmland, the way we use water, and the way we think about population and our fragile ecosystem’s capacity to sustain life. He argues that even if cultured meat does not “succeed,” it functions—much like science fiction—as a crucial mirror that we can hold up to our contemporary fleshy dysfunctions.
In this second novel of a trilogy, the alien Gnormen have returned home to regain Mekan, and left Ellen James and a new group of Gnor-humans to continue to build a future for the human race. Fearful of the projected future impact of current societal ills (a projection confirmed by a mysterious, undiscovered time traveler), Ellen seeks to reroute Earths trajectory in the ultimate act of shepherding. The Shepherds of Earth picks up where The Synthetic Race left off, with the key characters taking on new rescues, including Antoine de St. Exupery and Edmund Fitzgerald. Once again the Gnor-humans take us on a thrilling trip through history and into our potentially troubled future. Using insight, foresight and a bit of sci-fi magic, the Gnor-humans are able to tame these threats in ways that will surprise as well as stimulate readers to look at solutions to todays issues in a different light.
There is a large and growing need for a textbook that can form the basis for integrated classes that look at minerals, rocks, and other Earth materials. Despite the need, no high-quality book is available for such a course. Earth Materials is a wide-ranging undergraduate textbook that covers all the most important kinds of (inorganic) Earth materials. Besides traditional chapters on minerals and rocks, this book features chapters on sediments and stratigraphy, weathering and soils, water and the hydrosphere, and mineral and energy deposits. Introductions to soil mechanics and rock mechanics are also included. This book steers away from the model of traditional encyclopedic science textbooks, but rather exposes students to the key and most exciting ideas and information, with an emphasis on thinking about Earth as a system. The book is written in such a manner as to support inquiry, discovery and other forms of active learning. All chapters start with a short topical story or vignette, and the plentiful photographs and other graphics are integrated completely with the text. Earth Materials will be interesting and useful for a wide range of learners, including geoscience students, students taking mineralogy and petrology courses, engineers, and anyone interested in learning more about the Earth as a system.