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| biology major freshman courses: BIO2010 National Research Council, Division on Earth and Life Studies, Board on Life Sciences, Committee on Undergraduate Biology Education to Prepare Research Scientists for the 21st Century, 2003-02-13 Biological sciences have been revolutionized, not only in the way research is conductedâ€with the introduction of techniques such as recombinant DNA and digital technologyâ€but also in how research findings are communicated among professionals and to the public. Yet, the undergraduate programs that train biology researchers remain much the same as they were before these fundamental changes came on the scene. This new volume provides a blueprint for bringing undergraduate biology education up to the speed of today's research fast track. It includes recommendations for teaching the next generation of life science investigators, through: Building a strong interdisciplinary curriculum that includes physical science, information technology, and mathematics. Eliminating the administrative and financial barriers to cross-departmental collaboration. Evaluating the impact of medical college admissions testing on undergraduate biology education. Creating early opportunities for independent research. Designing meaningful laboratory experiences into the curriculum. The committee presents a dozen brief case studies of exemplary programs at leading institutions and lists many resources for biology educators. This volume will be important to biology faculty, administrators, practitioners, professional societies, research and education funders, and the biotechnology industry. |
| biology major freshman courses: Making the Most of College Richard J. Light, 2004-05-30 Why do some students make the most of college, while others struggle and look back on years of missed deadlines and missed opportunities? What choices can students make, and what can teachers and university leaders do, to improve more students’ experiences and help them achieve the most from their time and money? Most important, how is the increasing diversity on campus—cultural, racial, and religious—affecting education? What can students and faculty do to benefit from differences, and even learn from the inevitable moments of misunderstanding and awkwardness? From his ten years of interviews with Harvard seniors, Richard Light distills encouraging—and surprisingly practical—answers to fundamental questions. How can you choose classes wisely? What’s the best way to study? Why do some professors inspire and others leave you cold? How can you connect what you discover in class to all you’re learning in the rest of life? Light suggests, for instance: studying in pairs or groups can be more productive than studying alone; the first and most important skill to learn is time management; supervised independent research projects and working internships offer the most learning and the greatest challenges; and encounters with students of different religions can be simultaneously the most taxing and most illuminating of all the experiences with a diverse student body. Filled with practical advice, illuminated with stories of real students’ self-doubts, failures, discoveries, and hopes, Making the Most of College is a handbook for academic and personal success. |
| biology major freshman courses: An Index to Undergraduate Science National Science Foundation (U.S.). Office of Experimental Projects and Programs, 1974 |
| biology major freshman courses: Microbial Physiology Albert G. Moat, John W. Foster, Michael P. Spector, 2003-03-31 The Fourth Edition of Microbial Physiology retains the logical, easy-to-follow organization of the previous editions. An introduction to cell structure and synthesis of cell components is provided, followed by detailed discussions of genetics, metabolism, growth, and regulation for anyone wishing to understand the mechanisms underlying cell survival and growth. This comprehensive reference approaches the subject from a modern molecular genetic perspective, incorporating new insights gained from various genome projects. |
| biology major freshman courses: Teaching Tips Marvin Druger, Eleanor Dantzler Siebert, Linda W. Crow, 2004 Like a spirited idea exchange among experienced professors, Teaching Tips: Innovations in Undergraduate Science Instruction brings you the best thinking from campuses nationwide about how to engage undergraduate science students. Published to commemorate the 25th anniversary of the founding of the Society for College Science Teachers (SCST), Teaching Tips is a quick-read compilation of more than 50 innovative approaches that SCST members have found especially effective. The book is organized into three parts: 1) Pedagogical Practices includes using instant messaging as an involvement tool, encouraging active learning in large classes, and using peer coercion to stimulate teamwork Assessment Activities covers pretests and post-tests to encourage more effective learning, Web-based warm-up exercises to assess student misconceptions, and poetry-writing exercises to encourage creative thinking in the sciences Content Challenges offers approaches to teaching specific topics from calculations and conversions to conceptual physics, and ways to encourage active learning (using a portfolio approach, games like Bingo and Jeopardy, substances like Jell-O, and even student-drawn comic strips). Most of the ideas in the book are applicable across the sciences. Because the tips are only 500 to 700 words each, all contributors have provided contact information so you can learn more by e-mailing them directly. |
| biology major freshman courses: Biology for the Non-major Commission on Undergraduate Education in the Biological Sciences, 1967 |
| biology major freshman courses: Undergraduate Mathematics for the Life Sciences Glenn Ledder, Jenna P. Carpenter, Timothy D. Comar, 2013 There is a gap between the extensive mathematics background that is beneficial to biologists and the minimal mathematics background biology students acquire in their courses. The result is an undergraduate education in biology with very little quantitative content. New mathematics courses must be devised with the needs of biology students in mind. In this volume, authors from a variety of institutions address some of the problems involved in reforming mathematics curricula for biology students. The problems are sorted into three themes: Models, Processes, and Directions. It is difficult for mathematicians to generate curriculum ideas for the training of biologists so a number of the curriculum models that have been introduced at various institutions comprise the Models section. Processes deals with taking that great course and making sure it is institutionalized in both the biology department (as a requirement) and in the mathematics department (as a course that will live on even if the creator of the course is no longer on the faculty). Directions looks to the future, with each paper laying out a case for pedagogical developments that the authors would like to see. |
| biology major freshman courses: Concepts of Biology Samantha Fowler, Rebecca Roush, James Wise, 2023-05-12 Black & white print. Concepts of Biology is designed for the typical introductory biology course for nonmajors, covering standard scope and sequence requirements. The text includes interesting applications and conveys the major themes of biology, with content that is meaningful and easy to understand. The book is designed to demonstrate biology concepts and to promote scientific literacy. |
| biology major freshman courses: College Science Improvement Programs; COSIP A & B Report National Science Foundation (U.S.). Office of Experimental Programs, 1974 |
| biology major freshman courses: Guide to 150 Popular College Majors College Entrance Examination Board, 1992 Groups majors into 17 fields of study. Each entry describes the content of the major, including what's new in the field, what subjects to study, and what related majors to consider. |
| biology major freshman courses: Handbook of College Science Teaching Joel J. Mintzes, 2006 Are you still using 20th century techniques to teach science to 21st century students? Update your practices as you learn about current theory and research with the authoritative Handbook of College Science Teaching. The Handbook offers models of teaching and learning that go beyond the typical lecture-laboratory format and provides rationales for updated practices in the college classroom. The 38 chapters, each written by experienced, award-wining science faculty, are organized into eight sections: attitudes and motivations; active learning; factors affecting learning; innovative teaching approaches; use for technology, for both teaching and student research; special challenges, such as teaching effectively to culturally diverse or learning disabled students; pre-college science instruction; and improving instruction. No other book fills the Handbook's unique niche as a definitive guide for science professors in all content areas. It even includes special help for those who teach non-science majors at the freshman and sophomore levels. The Handbook is ideal for graduate teaching assistants in need of a solid introduction, senior faculty and graduate cooridinators in charge of training new faculty and grad students, and mid-career professors in search of invigoration. |
| biology major freshman courses: Plant Responses to the Environment Peter M. Gresshoff, 1993-07-23 Plant Responses to the Environment covers the fundamental mechanisms of plant responses to biotic and abiotic environmental stimuli. By combining established disciplines like physiology and genetics with new approaches stemming from molecular biology and biophysics, a new synthesis is achieved. For example, this book deals with the effects of microgravity on plant development, and it provides an extensive analysis of plant perception and response to low oxygen and high ozone. New techniques such as those used for gene transfer using the biolistic gene gun approach in soybeans are described. Other topics considered include systemic acquired resistance (SAR) in plants and recent advances in understanding how legume roots perceive bacterial lipooligosaccharide signals. A glossary, subject index, and author index are also provided. Plant Responses to the Environment will be a valuable reference for plant physiologists, ecophysiologists, agronomists, plant molecular biologists, experimental botanists, and other researchers interested in the topic. |
| biology major freshman courses: A Young Innovator’s Guide to Planning for Success Gitanjali Rao, 2024-06-04 How do you know where to start when facing the competitive atmosphere of high school? Additionally, how do you find a balance of academics and continue to contribute to society? High school students preparing for college can find themselves feeling lost. Balancing GPAs, AP classes, extracurriculars—and everything in between—can be overwhelming and disheartening, especially when considering statistics such as acceptance rates and standardized test scores. But recent high school graduate Gitanjali Rao is here to help students craft the perfect college portfolio as she encourages students to embrace what makes them unique, provide advice on how to plan their academic schedule to meet all the requirements for their dream school, and show them the best path to influence the world. Future MIT Class of 2027 graduate, Gitanjali Rao, shares her insights on how every and any student can develop their authentic personal narrative and be set up for success in high school and beyond. |
| biology major freshman courses: High-School Biology Today and Tomorrow National Research Council, Division on Earth and Life Studies, Commission on Life Sciences, Committee on High-School Biology Education, 1989-02-01 Biology is where many of science's most exciting and relevant advances are taking place. Yet, many students leave school without having learned basic biology principles, and few are excited enough to continue in the sciences. Why is biology education failing? How can reform be accomplished? This book presents information and expert views from curriculum developers, teachers, and others, offering suggestions about major issues in biology education: what should we teach in biology and how should it be taught? How can we measure results? How should teachers be educated and certified? What obstacles are blocking reform? |
| biology major freshman courses: Going Back for Our Future Jon Pedersen, Kevin D. Finson, Barbara S. Spector, Paul Jablon, 2013-04-01 This book is the first volume of an attempt to capture and record some of the answers to these questions—either from the pioneers themselves or from those persons who worked most closely with them. We know there are many pioneers and early trailblazers who are not included in this volume, but there are other volumes to follow. As we have posed questions, rummaged through files and oft-neglected books, and probed the memories of many individuals, we have come to realize our list of true pioneers is ever growing. There are names on the list that most of us readily recognize, and there are names of whom few of us have heard—yet who were significant in their roles as mentors or idea development and teaching. We quickly discovered that the “family tree” showing connections between these people is not a neat, clean simple branching tree, but is more like spaghetti. The connections are many, are intertwined, and all have their significance. The stories in this volume demonstrate how vital this network was in supporting the individual pioneers during their journey in difficult times and continues to be for those of us today in our own enterprise. |
| biology major freshman courses: Doing Honest Work in College Charles Lipson, 2013-04-01 Since its publication in 2004, Doing Honest Work in College has become an integral part of academic integrity and first-year experience programs across the country. This helpful guide explains the principles of academic integrity in a clear, straightforward way and shows students how to apply them in all academic situations—from paper writing and independent research to study groups and lab work. Teachers can use this book to open a discussion with their students about these difficult issues. Students will find a trusted resource for citation help whether they are studying comparative literature or computer science. Every major reference style is represented. Most important of all, many universities that adopt this book report a reduction in cheating and plagiarism on campus. For this second edition, Charles Lipson has updated hundreds of examples and included many new media sources. There is now a full chapter on how to take good notes and use them properly in papers and assignments. The extensive list of citation styles incorporates guidelines from the American Anthropological Association. The result is the definitive resource on academic integrity that students can use every day. “Georgetown’s entering class will discover that we actually have given them what we expect will be a very useful book, Doing Honest Work in College. It will be one of the first things students see on their residence hall desks when they move in, and we hope they will realize how important the topic is.”—James J. O’Donnell, Provost, Georgetown University “A useful book to keep on your reference shelf.”—Bonita L. Wilcox, English Leadership Quarterly |
| biology major freshman courses: Bulletin Northwestern University (Evanston, Ill.), 1967 |
| biology major freshman courses: Learning Bio-Micro-Nanotechnology Mel I. Mendelson, 2013-01-04 Learning Bio-Micro-Nanotechnology is a primer on micro/nanotechnology that teaches the vocabulary, fundamental concepts, and applications of micro/nanotechnology in biology, chemistry, physics, engineering, electronics, computers, biomedicine, microscopy, ethics, and risks to humankind. It provides an introduction into the small world with a low fo |
| biology major freshman courses: Summaries of Projects Completed National Science Foundation (U.S.), |
| biology major freshman courses: Summaries of Projects Completed in Fiscal Year ... , 1978 |
| biology major freshman courses: Infusing Undergraduate Research into Historically Black Colleges and Universities Curricula Jeton McClinton, Mark A. Melton, Caesar R. Jackson, Kimarie Engerman, 2015-11-06 Undergraduate Research is any effort undertaken by an undergraduate that advances their academic knowledge and leads to new scholarly insights. This volume tells the story of undergraduate research programs at Historically Black Colleges and Universities from the voices of faculty mentors, student mentees and UGR program directors and coordinators. |
| biology major freshman courses: Summaries of Projects Completed in Fiscal Year ... National Science Foundation (U.S.), 1978 |
| biology major freshman courses: The Top 100 Ferguson, 2008-11 |
| biology major freshman courses: Practicing Science , 2001 In this collection of ten articles reprinted from the Journal of College Science Teaching, college and university science professors show how they have used investigative learning, or inquiry-based instruction, to introduce students to the process of science. These first-person accounts demonstrate how students, including non-science majors, can learn to do science as it is done in the real world, through hypothesis building, observation, and experimental design. The higher education faculty represented in this book is committed to the investigative approach. As one contributor writes, Would I return to lecturing in a traditional fashion? Not a chance. The excitement and energy of a room of students working in groups, challenging each other, and questioning each other is what I'll always want to see in my classroom. |
| biology major freshman courses: Questioning the Premedical Paradigm Donald A. Barr, 2010-03-02 One hundred years ago, Abraham Flexners report on Medical Education in the United States and Canada helped establish the modern paradigm of premedical and medical education. Barr's research finds the system of premedical education that evolved to be a poor predictor of subsequent clinical competency and professional excellence, while simultaneously discouraging many students from under represented minority groups or economically disadvantaged backgrounds from pursuing a career as a physician. Analyzing more than fiftyyears of research, Barr shows that many of the best prospects are not being admitted to medical schools. with long-term adverse consequences for the U.S. medical profession. --Book Jacket. |
| biology major freshman courses: Measuring the Evolution Controversy Avelina Espinosa, Guillermo Paz-y-Miño-C, 2016-05-11 The reality of evolution is indisputable and, based on current scientific evidence, all people in the world should accept it as fact. Yet, only 41% of adults worldwide embrace evolution, and they do it under the premise that a deity created humans. One in every three people is a strict creationist who believes in religious scriptures concerning the origin of our universe and of humans, and explicitly rejects that Homo sapiens is an ape when, in fact, science informs us that humans’ closest relatives are chimpanzees, bonobos, gorillas and orangutans. Indeed, we are all apes. Why do people not accept evolution? In Measuring the Evolution Controversy, Guillermo Paz-y-Miño-C and Avelina Espinosa postulate that the debate over evolution-and-science versus creationism is inherent in the incompatibility between scientific rationalism/empiricism and the belief in supernatural causation (religion and faith). Belief disrupts, distorts, delays or stops the comprehension and acceptance of scientific evidence. The authors refer to this proposal as the incompatibility hypothesis (IH), the conceptual foundation of this book. Paz-y-Miño-C and Espinosa explain that the evolution controversy is not only measurable descriptively, but also testable as in an ordinary field of science. To accomplish this, they examine three predictions of IH. First, chronological-conflict-and-accommodation (i.e. the historical re-emergence of antagonism between evolution and religion when advances in science continue to threaten the belief in supernatural causation; in such situations, creationists’ rejection of and subsequent partial acceptance of the new scientific discoveries are expected). Second, change in evolution’s acceptance as function of educational attainment (i.e. the positive association between acceptance of evolution and level of education). Third, change in evolution’s acceptance as function of religiosity (i.e. the negative association between acceptance of evolution and level of religious beliefs). By relying on an ample assessment of the attitudes towards evolution by highly educated audiences (i.e. research faculty, educators of prospective teachers, and college students in the United States) the authors characterise their understanding of science and evolution, personal religious convictions, and political ideology. The authors make recommendations for improving science and evolution literacy, as well as evolution’s acceptance, and conclude by forecasting a probable global socio-cultural landscape in which acceptance of science and evolution will take place. |
| biology major freshman courses: Catalogue of Alma College for the Year ... with Announcements for the Year ... Alma College, 1886 |
| biology major freshman courses: Mentoring at Minority Serving Institutions (MSIs) Jeton McClinton, David S. B. Mitchell, Mark A. Melton, Gerunda B. Hughes, Tyrell Carr, 2018-05-01 The primary thrust of the proposed volume is to provide information for higher education minority serving institutions (MSIs) and other institutions and individuals interested in providing and/or improving mentoring programs and services to a variety of target groups. The editors are interested in how mentorship can produce beneficial outcomes for the mentor that may be similar to or different from outcomes in other educational contexts. Thus, the purpose of this volume is to showcase, through case studies and other forms of empirical research, how successful mentoring programs and relationships at MSIs have been designed and implemented. Additionally, we will examine the various definitions and slight variations of the meaning of the construct of mentoring within the MSI context. It is our intent to share aspects of mentoring programs and relationships as well as their outcomes that have heretofore been underrepresented and underreported in the research literature. |
| biology major freshman courses: The NSF Science Development Programs National Science Foundation (U.S.)., 1977 |
| biology major freshman courses: Decisions and Orders of the National Labor Relations Board United States. National Labor Relations Board, 1987 |
| biology major freshman courses: Register of the University of California University of California (1868-1952), 1954 |
| biology major freshman courses: The College Buzz Book Carolyn C. Wise, Stephanie Hauser, 2007-03-26 Many guides claim to offer an insider view of top undergraduate programs, but no publisher understands insider information like Vault, and none of these guides provides the rich detail that Vault's new guide does. Vault publishes the entire surveys of current students and alumni at more than 300 top undergraduate institutions. Each 2- to 3-page entry is composed almost entirely of insider comments from students and alumni. Through these narratives Vault provides applicants with detailed, balanced perspectives. |
| biology major freshman courses: The College Buzz Book , 2006-03-23 In this new edition, Vault publishes the entire surveys of current students and alumnni at more than 300 top undergraduate institutions, as well as the schools' responses to the comments. Each 4-to 5-page entry is composed of insider comments from students and alumni, as well as the schools' responses to the comments. |
| biology major freshman courses: College Admissions Data Sourcebook Northeast Edition Bound 2010-11 , 2010-09 |
| biology major freshman courses: Research Training in the Biomedical, Behavioral, and Clinical Research Sciences National Research Council, Policy and Global Affairs, Board on Higher Education and Workforce, Committee to Study the National Needs for Biomedical, Behavioral, and Clinical Research Personnel, 2011-02-28 Comprehensive research and a highly-trained workforce are essential for the improvement of health and health care both nationally and internationally. During the past 40 years the National Research Services Award (NRSA) Program has played a large role in training the workforce responsible for dramatic advances in the understanding of various diseases and new insights that have led to more effective and targeted therapies. In spite of this program, the difficulty obtaining jobs after the postdoc period has discouraged many domestic students from pursuing graduate postdoc training. In the United States, more than 50 percent of the postdoc workforce is made up of individuals who obtained their Ph.D.s from other countries. Indeed, one can make a strong argument that the influx of highly trained and creative foreigners has contributed greatly to U.S. science over the past 70 years. Research Training in the Biomedical, Behavioral, and Clinical Research Sciences discusses a number of important issues, including: the job prospects for postdocs completing their training; questions about the continued supply of international postdocs in an increasingly competitive world; the need for equal, excellent training for all graduate students who receive NIH funding; and the need to increase the diversity of trainees. The book recommends improvements in minority recruiting, more rigorous and extensive training in the responsible conduct of research and ethics, increased emphasis on career development, more attention to outcomes, and the requirement for incorporating more quantitative thinking in the biomedical curriculum. |
| biology major freshman courses: The Insider's Guide to the Colleges, 2011 Yale Daily News Staff, 2010-06-22 For more than thirty-five years, The Insider's Guide to the Colleges has been the favorite resource of high school students across the country because it is the only comprehensive college reference researched and written by students for students. In interviews with hundreds of peers on campuses from New York to Hawaii and Florida to Alaska, our writers have sought out the inside scoop at every school on everything from the nightlife and professors to the newest dorms and wildest student organizations. In addition to the in-depth profiles of college life, this 37th edition has been revised and updated to include: * Essential statistics for every school, from acceptance rates to the most popular majors * A College Finder to help students zero in on the perfect school * Insider's packing list detailing what every college student really needs to bring * FYI sections with student opinions and outrageous off-the-cuff advice. The Insider's Guide to the Colleges cuts through the piles of brochures to get to the things that matter most to students, and by staying on top of trends and attitudes it delivers the straight talk students and parents need to choose the school that's the best fit. |
| biology major freshman courses: Interdisciplinarity in the Making Nancy J. Nersessian, 2022-11-22 A cognitive ethnography of how bioengineering scientists create innovative modeling methods. In this first full-scale, long-term cognitive ethnography by a philosopher of science, Nancy J. Nersessian offers an account of how scientists at the interdisciplinary frontiers of bioengineering create novel problem-solving methods. Bioengineering scientists model complex dynamical biological systems using concepts, methods, materials, and other resources drawn primarily from engineering. They aim to understand these systems sufficiently to control or intervene in them. What Nersessian examines here is how cutting-edge bioengineering scientists integrate the cognitive, social, material, and cultural dimensions of practice. Her findings and conclusions have broad implications for researchers in philosophy, science studies, cognitive science, and interdisciplinary studies, as well as scientists, educators, policy makers, and funding agencies. In studying the epistemic practices of scientists, Nersessian pushes the boundaries of the philosophy of science and cognitive science into areas not ventured before. She recounts a decades-long, wide-ranging, and richly detailed investigation of the innovative interdisciplinary modeling practices of bioengineering researchers in four university laboratories. She argues and demonstrates that the methods of cognitive ethnography and qualitative data analysis, placed in the framework of distributed cognition, provide the tools for a philosophical analysis of how scientific discoveries arise from complex systems in which the cognitive, social, material, and cultural dimensions of problem-solving are integrated into the epistemic practices of scientists. Specifically, she looks at how interdisciplinary environments shape problem-solving. Although Nersessian’s case material is drawn from the bioengineering sciences, her analytic framework and methodological approach are directly applicable to scientific research in a broader, more general sense, as well. |
| biology major freshman courses: Careers in Focus: Pharmaceuticals and Biotechnology, Third Edition Ferguson, 2021-04-01 Ferguson's Careers in Focus books are a valuable career exploration tool for libraries and career centers. Written in an easy-to-understand yet informative style, this series surveys a wide array of commonly held jobs and is arranged into volumes organized by specific industries and interests. Each of these informative books is loaded with up-to-date career information presented in a featured industry article and a selection of detailed professions articles. The information here has been researched, vetted, and analyzed by Ferguson's editors, drawing from government and industry sources, professional groups, news reports, career and job-search resources, and a variety of other sources. For readers making career choices, these books offer a wealth of helpful information and resources. Each profession article includes: Quick Facts: a snapshot of important job facts Overview: briefly introduces duties and responsibilities History: describes the origins and history of the job The Job: describes primary and secondary goals and duties Earnings: discusses salary ranges and typical fringe benefits Work Environment: looks at typical work conditions and surroundings associated with the job Exploring: offers suggestions on how to gain experience and knowledge about—or even test drive—a career before making a commitment Education and Training Requirements: discusses required high school and post-secondary education and training Certification, Licensing, and Special Requirements: explains recommended and required certifications or prerequisites for the job Experience, Skills, and Personality Traits: summarizes the personal traits and skills and professional experience needed to get started and succeed Employer Prospects: gives an overview of typical places of employment and the best ways to land a job Advancement Prospects: presents an expected career path and how to travel it Outlook: summarizes the job's potential growth or decline in terms of the general economy and industry projections Unions and Associations: lists essential and helpful professional groups Tips for Entry: additional tips for preparing for a career and getting a foot in the door For More Information: lists organizations that provide career information, networking, and professional development Sidebars: short features showcasing stats, trivia, and insight about a profession or industry Careers in Focus: Pharmaceuticals and Biotechnology, Third Edition covers 28 jobs, including: Biochemical Engineers Biochemists Bioinformatics Specialists Biologists Biomedical Engineers Biomedical Equipment Technicians Biotechnology Patent Lawyers Biotechnology Production Workers Biotechnology Research Assistants Chemical Engineers Chemical Technicians Chemists Clinical Research Coordinators Drug Developers Genetic Engineers Genetic Scientists Laboratory Technicians and Technologists Laboratory Testing Technicians Pharmaceutical Industry Workers Pharmacists Pharmacologists Pharmacy Technicians Senior Care Pharmacists Toxicologists |
| biology major freshman courses: Annual Catalog South Dakota Agricultural College, South Dakota State University, 1967 |
| biology major freshman courses: The Insider's Guide to the Colleges, 2013 Yale Daily News Staff, 2012-07-03 The Insider's Guide to the Colleges has been, for 39 years, the most relied-upon resource for high school students looking for honest reports on colleges from their fellow students. Having interviewed hundreds of their peers on more than 330 campuses and by getting the inside scoop on everything from the nightlife and professors to the newest dorms and wildest student organizations, the reporters at the Yale Daily News have created the most candid college guide available. In addition to the wellrounded profiles, this edition has been updated to include: • Essential statistics for every school, from acceptance rates to popular majors • A College Finder to help students zero in on the perfect school • All new FYI sections with student opinions and outrageous off-the-cuff advice The Insider's Guide to the Colleges cuts through the glossy brochures to uncover the things that matter most to students, and by staying on top of trends, it gives both students and parents the straightforward information they need to choose the school that's right for them. |
How do I cram for the exam??? - Biology Forum
Oct 27, 2009 · I have been studying Biology by correspondence through Unilearn for the last couple of months. I have completed my required 10 modules so getting ready to sit the exam. …
Definition of a solution - Biology Forum
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Jul 19, 2011 · I can't quite grasp the "ends" of DNA. When we say "3' end", does it mean that we can only add the nucleotides to the 5's, and not the 3's?
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Dec 3, 2006 · Biology is the study of living things… In this we study about the structure , function , interactions, of living organisms…It is a vast field divided into many branches. December 3, …
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Dec 20, 2007 · Evolution does'nt makes sense to me. According to Darwin, humans have evolved from apes. I want to know why some apes evolved into humans, why not all evolved?
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Jul 23, 2006 · I think depolymerisation is the removal of the monomers, in this case the removal of the monomers of microtubules.
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Aug 28, 2007 · Imperfect Design Darwin’s theory of Evolution explains how living things adapt to changing environments over time so as to survive and procreate the species.
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What is the String Theory? - Biology Forum
Feb 15, 2006 · The string theory is a notion of cuantum physics that tries to explain how is it that our space and time can expand and contract influenced by the energy of everything…
How do I cram for the exam??? - Biology Forum
Oct 27, 2009 · I have been studying Biology by correspondence through Unilearn for the last couple of months. I have completed my required 10 modules so getting ready to sit the exam. How do I …
Definition of a solution - Biology Forum
Jan 28, 2007 · In my introductory biology class, we are learning about how water creates aqueous solutions. I am not sure about the definition of a solution, however. Does a solution mean that …
DNA 3' end & 5' end - Biology Forum
Jul 19, 2011 · I can't quite grasp the "ends" of DNA. When we say "3' end", does it mean that we can only add the nucleotides to the 5's, and not the 3's?
WHAT A BIOLOGY? - Biology Forum
Dec 3, 2006 · Biology is the study of living things… In this we study about the structure , function , interactions, of living organisms…It is a vast field divided into many branches. December 3, 2006 …
Evolution - Biology Forum
Dec 20, 2007 · Evolution does'nt makes sense to me. According to Darwin, humans have evolved from apes. I want to know why some apes evolved into humans, why not all evolved?
what is depolymerisation - Biology Forum
Jul 23, 2006 · I think depolymerisation is the removal of the monomers, in this case the removal of the monomers of microtubules.
Topics Archive - Biology Forum
360 Wiki Writers. General Discussion. 2; 2
Imperfect Design - Biology Forum
Aug 28, 2007 · Imperfect Design Darwin’s theory of Evolution explains how living things adapt to changing environments over time so as to survive and procreate the species.
Meniscus? - Biology Forum
Apr 21, 2006 · My biology teacher gave us instructions on how to set up a potometer. According to him the way to measure the rate of transpiration is to measure the distance moved by the …
What is the String Theory? - Biology Forum
Feb 15, 2006 · The string theory is a notion of cuantum physics that tries to explain how is it that our space and time can expand and contract influenced by the energy of everything…
