A downloads is the number of how many times the torrent has been downloaded according to its tracker record
A seeder is a peer that has a complete copy of the torrent and still offers it for upload. The more seeders there are, the better the chances are for completion of the file
A leech is usually a peer who has a negative effect on the swarm by having a very poor share ratio - in other words, downloading much more than they upload. Most leeches are users on asymmetric internet connections who do not leave their BitTorrent client open to seed the file after their download has completed. However, some leeches intentionally avoid uploading by using modified clients or excessively limiting their upload speed. The term leech, however, can be used simply to describe a peer - or any client that does not have 100% of the data
A peer is one instance of a BitTorrent client running on a computer on the Internet that other clients connect to and transfer data. Usually a peer does not have the complete file, but only parts of it, however, peer can be used to refer to any participant in the swarm (in this case, also known as a client). Note that the colloquial definition of peer is anybody, leech or seed, involved in a torrent
A health (or avaiability) the number of full copies of the file available to the client. Each seeder adds 1.0 to this number, as they have one complete copy of the file. A connected peer with a fraction of the file available adds that fraction to the availability, if no other peer has this part of the file. (ie. a peer with 65.3% of the file downloaded increases the availability by 0.653, when two peers who both have the same 50% of the file downloaded and there is one seeder the availability is 1.5)
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Direct HTTP Download - download this torrent as a regular HTTP file using Furk.net servers as an accelerated proxy.
Note: Unlike other torrent indexes we find more trackers for a torrent and put them sorted by seeders into the torrent upon every download. This should improve download speed. Extra trackers marked with '+' sign. If you have problems with this then let us know.
Biology: The Science of Life(72 lectures, 30 minutes/lecture)Course No. 1500Taught by Stephen NowickiOne of the greatest scientific feats of our era is the astonishing progress made in understanding the intricate machinery of life. We are living in the most productive phase so far in this quest, as researchers delve ever deeper into the workings of living systems, turning their discoveries into new medical treatments, improved methods of growing food, and innovative new products."The 21st century will be the century of biological science, just as the 20th century was the century of physical science," predicts Professor Stephen Nowicki, an award-winning teacher at Duke University who has specially adapted his acclaimed introductory biology course for The Teaching Company to bring you up to date on one of the most important fields of knowledge of our time.This intensive, 72-lecture course will give you the background and guidance to explore in depth the fundamental principles of how living things work—principles such as evolution by natural selection, the cellular structure of organisms, the DNA theory of inheritance, and other key ideas that will help you appreciate the marvelous diversity and complexity of life.Explore Living Systems at All LevelsMake no mistake: this is a challenging course. But the rewards are tremendous. You will explore living systems at all levels, from biological molecules to global ecosystems. Along the way, you will gain insight into some of the most pressing questions facing society:What does it mean to say that the human genome has been "sequenced," and why should we sequence the genomes of other species?How is an organism "genetically modified" or "cloned," and what are the benefits—or potential costs—of doing so?What are "stem cells," and how might they contribute to human health and welfare?Why is HIV/AIDS so difficult to treat?What will happen if vast tracts of tropical rainforest are cut down, and why does it matter that the temperature of the Earth is rising?In addition, you will discover the mechanisms behind such intriguing phenomena as why children resemble their parents, what causes plants to bend toward light, how memories are stored, why some birds have very long tails, and how life itself began on Earth.Above all, you will learn how to think about biology, so that in your day-to-day life you will understand the significance and complexities of news stories, medical issues, and public debates, not to mention what is going on in your own garden and in nature all around you.The Unifying Themes of BiologyProfessor Nowicki presents the subject in a conceptual format, emphasizing the importance of broad principles. Facts and details are offered in abundance, but in the context of developing a framework that listeners can absorb.The course is organized around three major unifying themes:Starting with the theme of "Information and Evolution" (Lectures 1-24), you investigate how information about the structure and organization of living things is found in the DNA molecule, how this information is transmitted and modified, and the implications of these processes for understanding life. One important conclusion of this discussion is that species inevitably change over time; that is, that life evolves.In "Development and Homeostasis" (Lectures 25-48), you consider two related issues for understanding the workings of complex organisms: how single cells (fertilized eggs) proliferate and transform into complex, multicellular organisms, and how the various parts of complex organisms remain coordinated and maintain their integrity in the face of different challenges.In "Energy and Resources" (Lectures 49-72), you learn how living systems obtain the energy and other materials needed to maintain their highly ordered state and the implications of these processes for understanding the organization of biology at all levels of scale. Ultimately this investigation leads into the discipline of ecology and to considerations of energy and resource limitations for the entire planet.An Innovative ProfessorStephen Nowicki (Ph.D., Cornell University ) is Bass Fellow and Professor of Biology at Duke University, where he also holds appointments in the Department of Psychological and Brain Sciences and in the Neurobiology Department at Duke University Medical Center. A recipient of Duke's Robert B. Cox Distinguished Teaching Award, Professor Nowicki has won widespread recognition for his thorough revision of the university's introductory biology curriculum.The Great Experiments of BiologyOne of the distinctive features of this course is that you learn much of the material through the great experiments that revealed new and unexpected aspects of the living world to science. Among them:Gregor Mendel's discovery of the fundamental principles of inheritance through his work on trait transmission in garden peas in the mid-1800s.Thomas Hunt Morgan's introduction of the fruit fly as a model system for modern genetics in the early 20th century. Morgan's work and that of his many students demonstrated that genes occur on chromosomes.Konrad Lorenz's mid-20th-century work on releasers and fixed action patterns in the behavior of greylag geese and other animals, which helped establish the modern study of animal behavior.Arthur Kornberg's discovery of DNA polymerase in 1958, which helped spark today's revolution in biotechnology and genetic engineering.Encounter a Wealth of Interesting InformationIn your systematic study of biology under Professor Nowicki's guidance, you will encounter a wealth of interesting information and observations, such as:Some cells in a developing organism are pre-programmed to die, a process that is important, for example, in creating the spaces between our fingers and toes.The accumulation of oxygen in Earth's atmosphere following the evolution of photosynthetic bacteria was a disaster of global proportions for most of the organisms that lived before oxygen appeared on the planet.The ability of cells to recognize self from non-self is widespread in animals, even among creatures as simple as sponges. If you take two sponges of the same species and dissociate their cells, then mix those cells, the cells will re-associate with the individual they came from.Some species of moths and butterflies develop into very different looking caterpillars or adults depending on the time of year that they happen to be born. It is the available food source that turns the caterpillar into one form or another.The diversity of life is indeed remarkable—and so will be your experience with this course. You may not understand everything the first or even the second time you hear it, but "the point isn't to remember the details," says Professor Nowicki. "The point is to understand how the details are processed, how they're analyzed, how biologists come up with these ideas, and how to think about the new information you might encounter in the future.
Sounds very interesting but why does there seem to be not many video documentarys covering these topics.Most ive seen are all very basic and dont go into anything in much detail, Only good 1 ive seen is -The Mystery of Life - Truth or evolution
im not sure if u are talking about the same documentary, but check out Unlocking The Mystery Of Lifehttp://ts.searching.com/torrent/505844/Unlocking_the_mystery_of_lifeit's about intelligent design and has some really cool graphics depicting cellular processes, in particular "molecular machines"mind-blowing stuff...
Subject : if ur looking for the DVD of the above lectures
Should I buy Audio or Video?The DVD and videotape versions of this course contain more than 450 images, including graphs, charts, experiments, diagrams and structures, creatures, and prominent figures in the field of biology. On-screen text includes 500 items. This course also works well in audio formats. Course guidebooks for all formats include 65 images.http://www.teach12.com/ttc/Assets/courseDescriptions/1500.asp?pc=SiteIndex
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