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200 14$aThe Air Force role in developing international outer space law$b[electronic resource] /$fDelbert R. Terrill, Jr
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200 00$aEffective programs for Latino students /$fedited by Robert E. Slavin, Margarita Calderon
210  1$aMahwah, N.J. :$cLawrence Erlbaum Associates, Inc.,$d2001.
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300   $aDescription based upon print version of record.
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320   $aIncludes bibliographical references and indexes.
327   $aEffective Programs for Latino Students; Copyright; Contents; Preface; 1 Effective Programs for Latino Students in Elementary and Middle Schools; 2 Effective Dropout Prevention and College Attendance Programs for Latino Students; 3 Effective Elementary, Middle, and High School Programs for Latino Youth; 4 A Two-Way Bilingual Program: Promise, Practice, and Precautions; 5 Improving Literacy Achievement for English Learners in Transitional Bilingual Programs
327   $a6 Effects of Bilingual and English-as-a-Second-Language Adaptations of Success for All on the Reading Achievement of Students Acquiring English7 Ethnographic Studies of E?xito Para Todos; 8 Curricula and Methodologies Used to Teach Spanish-Speaking Limited English Proficient Students to Read English; 9 The Factors That Place Latino Children and Youth at Risk of Educational Failure; 10 An Overview of the Educational Models Used to Explain the Academic Achievement of Latino Students: Implications for Research and Policies Into the New Millennium; Author Index; Subject Index
330   $aLatino (or Hispanic) children are one of the fastest-growing groups in U.S. schools today. On average, these students perform worse than Anglo students on measures of academic achievement and other measures of academic success, and their drop-out rate is high. There are schools of excellence among those serving Latino children, but the majority of these children are placed ""at risk"" by schools and community institutions unable to build on the cultural, personal, and linguistic strengths these children are likely to bring with them to school. Schools serving Latino students need programs base
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200 00$aProducing fuels and fine chemicals from biomass using nanomaterials /$fedited by Rafael Luque, Alina Mariana Balu
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327   $asection I. Nanomaterials for energy storage and conversion -- section II. Biofuels from biomass valorization using nanomaterials -- section III. Production of high-added-value chemicals from biomass using nanomaterials.
330   $aThis book explores the available technologies for the preparation of fuels and chemicals from biomass using nanomaterials. This focus bridges the gap between three hot topics: nanomaterials, energy, and the environment. The book also deals with other important topics related to nanomaterials including toxicity and sustainability and environmental aspects. --$cProvided by publisher.
330   $aPreface The design of novel and innovative methodologies to maximize current available reources without compromising the future of coming generations is one of the most important challenges of the 21st century. The scarcity of resources and the expected increase in population and energy demands are two of the most important issues to be addressed. In this regard, green chemical and low-environmental-impact technologies combined with renewable resources through innovation will be able to offer alternatives to potentially useful processes for a more sustainable bio-based society in which we will move away from the petrol-based economy we have relied upon the past 50-plus years. Biomass is one of the most promising and widely available renewable feedstocks that has a significant potential to offer a number of alternatives to be converted to materials, fuels and chemicals. Waste residues can also partially help contributing to this aim, leading to advance valorization technologies for energy and fuels production. On the other hand, nanotechnology and nanomaterials development have experienced a staggering evolution in recent decades to the point that scientists are currently able to design and optimize a surprisingly significant number of nanomaterials for an extensive range of applications including energy storage, fuels production, biomedicine, and nanocatalysis, which are also taken to industrial and commercial practices. Combining the design of nanomaterials for the valorization of biomass and waste feedstocks to energy and chemicals as well as to (solar) energy storage can constitute a major step forward to further advancing current society in a scientific understanding of properties and alternative applications of nanomaterials in our goal toward a sustainable future--$cProvided by publisher.
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