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TTC Video - The Joy of Science [repost]
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TTC Video - The Joy of Science
60xWEBRip | English | AVI | 512 x 384 | XviD ~1128 kbps | 29.970 fps
MP3 | 108 kbps | 48.0 KHz | 2 channels | 30:27:57 | 15.9 GB
MP3 | 108 kbps | 48.0 KHz | 2 channels | 30:27:57 | 15.9 GB
Genre: eLearning / Science
English novelist and scientist C. P. Snow classed certain scientific ideas with the works of Shakespeare as something every educated person should know. One such idea, according to Snow, was the second law of thermodynamics, which deals with the diffusion of heat and has many profound consequences. He might well have added Newton's laws, the periodic table of elements, the double-helix structure of DNA, and scores of other masterpieces of scientific discovery.Now, Professor Robert M. Hazen introduces these and other great ideas in 60 lectures that explore the fundamental discoveries and principles of all of the physical and biological sciences—physics, genetics, biology, astronomy, chemistry, meteorology, thermodynamics, and more.
A Passion for Teaching and Science
Professor Hazen is an apostle of science education for non-scientists, and he has few peers at rendering the most complex ideas simple, without being simplistic.
"I have a passion as a teacher," he says, "and that passion is to share with you the joy of science, the astonishing discoveries, the mind-bending insights, and the transforming applications of science as well."
A research scientist, professor, and advisor to public television's NOVA science series, Dr. Hazen helped draft the National Science Education Standards (National Academy of Sciences, 1997). These Standards represent a consensus among thousands of scientists and educators regarding the most effective approaches for teaching and learning about science.
These lectures have been specifically designed to introduce and review all of the scientific principles that are included in the Content Standards portion of the National Science Education Standards.
The result is a comprehensive and integrated introduction to all of science. By devoting just 30 minutes a day, you can complete this entire course in two months and discover an enhanced understanding of the physical world that will be a source of endless wonder and intellectual joy.
A Special Learning Opportunity
This course offers a special learning opportunity because:
It steers clear of the jargon and mathematical abstractions that so often bedevil science education.
It features an integrated approach that allows you as a learner to transcend artificial disciplinary boundaries in order to gain a panoramic view of the whole scientific enterprise in all its breathtaking scope.
The key to these achievements is Professor Hazen's insight that only a course organized around the common principles of scientific inquiry can put science in its proper light as a unique way of knowing.
Four Reasons to Become Scientifically Literate
Dr. Hazen cites four reasons why you should strive to become scientifically literate:
Scientific literacy helps you as a consumer make informed decisions—about health care, diet, nutrition, exercise, environmental issues, and the plethora of technological choices that we all face.
Many of today's jobs depend directly or indirectly on science as well as on technologies that are developed from scientific discoveries.
Scientific literacy helps you provide your children with a firm foundation as they study science in school.
Learning about science allows you to share the joy of humanity's greatest ongoing adventure of discovery and exploration.
What You'll Learn
Part I Highlights (Lectures 1–12):
Dr. Hazen begins by explaining the four-step cycle that defines the "scientific method" of knowing. He introduces you to five pivotal figures in early-modern science: Nicolas Copernicus, Tycho Brahe, Johannes Kepler, Galileo Galilei, and Isaac Newton. Astoundingly, during a single rural sojourn in 1665–66, Newton discovered calculus, many of the basic laws of optics, the three laws of motion, and the law of gravity. Newton's discoveries unified the supposedly separate domains of terrestrial and celestial motions.
Part II Highlights (Lectures 13–24):
Dr. Hazen introduces you to H. C. Oersted, the little-known figure who paved the way for a revolution in technology with his finding that electricity can produce a magnetic field. Out of this discovery came the electromagnet, the telegraph, the telephone, the electric motor, the generator, and many other inventions. You will also learn how James Clerk Maxwell offered the first mathematically rigorous description of the close connection between electricity and magnetism—and how Einstein, pondering a paradox that arose from Maxwell's equations, proposed and explored the principle of relativity.
Dr. Hazen shifts the focus of his lectures to the nature of matter, paying particular attention to atoms and quantum mechanics. He explains the chemical bonding of atoms, the different states of matter, and the principal force of change in the world of matter: chemical reactions.
Part III Highlights (Lectures 25–36):
Dr. Hazen then turns to the explanation of how specific physical systems work. Such systems manifest themselves in the properties of materials, as well as in the characteristics of atomic isotopes and their energy-producing nuclear reactions. You will learn about astronomy, the Big Bang theory, the solar system, and today's burgeoning field of extra-solar planetary systems.
Part IV Highlights (Lectures 37–48):
Dr. Hazen devotes lectures to the constant recycling of Earth's materials—water, air, and rock. He explores the question, "What is life?" You'll examine life's molecular building blocks: carbohydrates, lipids, proteins, and nucleic acids. You'll learn how biological information is passed from parents to offspring, processes first quantified by the Czechoslovakian monk Gregor Mendel.
Part V Highlights (Lectures 49–60):
Mendel's discoveries lead Dr. Hazen to focus on the great unifying biological principles of genetics, evolution, and ecosystems. He argues that no scientific discovery of the 20th century has had a greater impact than the deciphering of the genetic code, embedded in the double-helix structure of DNA first described in 1952 by James Watson and Francis Crick. Dr. Hazen goes on to address troubling ethical questions raised by genetic engineering. He examines both the chemical and biological evolution of life before delving into the interdependent communities of species and their physical environments known as ecosystems.
Dr. Hazen also raises questions about claims that science is approaching its end—that all there is of significance to be learned about the natural world will soon be known.
A research scientist, professor, and advisor to public television's NOVA science series, Dr. Hazen helped draft the National Science Education Standards (National Academy of Sciences, 1997). These Standards represent a consensus among thousands of scientists and educators regarding the most effective approaches for teaching and learning about science.
These lectures have been specifically designed to introduce and review all of the scientific principles that are included in the Content Standards portion of the National Science Education Standards.
The result is a comprehensive and integrated introduction to all of science. By devoting just 30 minutes a day, you can complete this entire course in two months and discover an enhanced understanding of the physical world that will be a source of endless wonder and intellectual joy.
A Special Learning Opportunity
This course offers a special learning opportunity because:
It steers clear of the jargon and mathematical abstractions that so often bedevil science education.
It features an integrated approach that allows you as a learner to transcend artificial disciplinary boundaries in order to gain a panoramic view of the whole scientific enterprise in all its breathtaking scope.
The key to these achievements is Professor Hazen's insight that only a course organized around the common principles of scientific inquiry can put science in its proper light as a unique way of knowing.
Four Reasons to Become Scientifically Literate
Dr. Hazen cites four reasons why you should strive to become scientifically literate:
Scientific literacy helps you as a consumer make informed decisions—about health care, diet, nutrition, exercise, environmental issues, and the plethora of technological choices that we all face.
Many of today's jobs depend directly or indirectly on science as well as on technologies that are developed from scientific discoveries.
Scientific literacy helps you provide your children with a firm foundation as they study science in school.
Learning about science allows you to share the joy of humanity's greatest ongoing adventure of discovery and exploration.
What You'll Learn
Part I Highlights (Lectures 1–12):
Dr. Hazen begins by explaining the four-step cycle that defines the "scientific method" of knowing. He introduces you to five pivotal figures in early-modern science: Nicolas Copernicus, Tycho Brahe, Johannes Kepler, Galileo Galilei, and Isaac Newton. Astoundingly, during a single rural sojourn in 1665–66, Newton discovered calculus, many of the basic laws of optics, the three laws of motion, and the law of gravity. Newton's discoveries unified the supposedly separate domains of terrestrial and celestial motions.
Part II Highlights (Lectures 13–24):
Dr. Hazen introduces you to H. C. Oersted, the little-known figure who paved the way for a revolution in technology with his finding that electricity can produce a magnetic field. Out of this discovery came the electromagnet, the telegraph, the telephone, the electric motor, the generator, and many other inventions. You will also learn how James Clerk Maxwell offered the first mathematically rigorous description of the close connection between electricity and magnetism—and how Einstein, pondering a paradox that arose from Maxwell's equations, proposed and explored the principle of relativity.
Dr. Hazen shifts the focus of his lectures to the nature of matter, paying particular attention to atoms and quantum mechanics. He explains the chemical bonding of atoms, the different states of matter, and the principal force of change in the world of matter: chemical reactions.
Part III Highlights (Lectures 25–36):
Dr. Hazen then turns to the explanation of how specific physical systems work. Such systems manifest themselves in the properties of materials, as well as in the characteristics of atomic isotopes and their energy-producing nuclear reactions. You will learn about astronomy, the Big Bang theory, the solar system, and today's burgeoning field of extra-solar planetary systems.
Part IV Highlights (Lectures 37–48):
Dr. Hazen devotes lectures to the constant recycling of Earth's materials—water, air, and rock. He explores the question, "What is life?" You'll examine life's molecular building blocks: carbohydrates, lipids, proteins, and nucleic acids. You'll learn how biological information is passed from parents to offspring, processes first quantified by the Czechoslovakian monk Gregor Mendel.
Part V Highlights (Lectures 49–60):
Mendel's discoveries lead Dr. Hazen to focus on the great unifying biological principles of genetics, evolution, and ecosystems. He argues that no scientific discovery of the 20th century has had a greater impact than the deciphering of the genetic code, embedded in the double-helix structure of DNA first described in 1952 by James Watson and Francis Crick. Dr. Hazen goes on to address troubling ethical questions raised by genetic engineering. He examines both the chemical and biological evolution of life before delving into the interdependent communities of species and their physical environments known as ecosystems.
Dr. Hazen also raises questions about claims that science is approaching its end—that all there is of significance to be learned about the natural world will soon be known.
Lectures:
01. The Nature of Science
02. The Scientific Method
03. The Ordered Universe
04. Celestial and Terrestrial Mechanics
05. Newton's Laws of Motion
06. Universal Gravitation
07. The Nature of Energy
08. The First Law of Thermodynamics
09. The Second Law of Thermodynamics
10. Entropy
11. Magnetism and Static Electricity
12. Electricity
13. Electromagnetism
14. The Electromagnetic Spectrum, Part I
15. The Electromagnetic Spectrum, Part II
16. Relativity
17. Atoms
18. The Bohr Atom
19. The Quantum World
20. The Periodic Table of the Elements
21. Introduction to Chemistry
22. The Chemistry of Carbon
23. States of Matter and Changes of State
24. Phase Transformations and Chemical Reactions
25. Properties of Materials
26. Semiconductors and Modern Microelectronics
27. Isotopes and Radioactivity
28. Nuclear Fission and Fusion Reactions
29. Astronomy
30. The Life Cycle of Stars
31. Edwin Hubble and the Discovery of Galaxies
32. The Big Bang
33. The Ultimate Structure of Matter
34. The Nebular Hypothesis
35. The Solar System
36. The Earth as a Planet
37. The Dynamic Earth
38. The Plate Tectonics Revolution
39. Earthquakes, Volcanoes, and Plate Motions Today
40. Earth Cycles—Water
41. The Atmospheric Cycle
42. The Rock Cycle
43. What Is Life?
44. Strategies of Life
45. Life's Molecular Building Blocks
46. Proteins
47. Cells—The Chemical Factories of Life
48. Gregor Mendel, Founder of Genetics
49. The Discovery of DNA
50. The Genetic Code
51. Reading the Genetic Code
52. Genetic Engineering
53. Cancer and Other Genetic Diseases
54. The Chemical Evolution of Life
55. Biological Evolution—A Unifying Theme of Biology
56. The Fact of Evolution—The Fossil Record
57. Charles Darwin and the Theory of Natural Selection
58. Ecosystems and the Law of Unintended Consequences
59. The Ozone Hole, Acid Rain, and the Greenhouse Effect
60. Science, the Endless Frontier
General
Complete name The.Joy.Of.Science.[TTC].-.L51.-.Reading.the.Genetic.Code.avi
Format : AVI
Format/Info : Audio Video Interleave
File size : 275 MiB
Duration : 30mn 44s
Overall bit rate mode : Variable
Overall bit rate : 1 250 Kbps
Writing application : Nandub v1.0rc2
Writing library : Nandub build 1852/release
Video
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Format profile : Advanced Simple@L5
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Format settings, QPel : No
Format settings, GMC : No warppoints
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Codec ID : XVID
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Source duration : 30mn 45s
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Nominal bit rate : 128 Kbps
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Sampling rate : 48.0 KHz
Compression mode : Lossy
Delay relative to video : 384ms
Stream size : 23.8 MiB (9%)
Alignment : Aligned on interleaves
Interleave, duration : 24 ms (0.72 video frame)
Interleave, preload duration : 1450 ms
Writing library : LAME3.93
Encoding settings : -m j -V 0 -q 2 -lowpass 15.3 –abr 128
Complete name The.Joy.Of.Science.[TTC].-.L51.-.Reading.the.Genetic.Code.avi
Format : AVI
Format/Info : Audio Video Interleave
File size : 275 MiB
Duration : 30mn 44s
Overall bit rate mode : Variable
Overall bit rate : 1 250 Kbps
Writing application : Nandub v1.0rc2
Writing library : Nandub build 1852/release
Video
ID : 0
Format : MPEG-4 Visual
Format profile : Advanced Simple@L5
Format settings, BVOP : 2
Format settings, QPel : No
Format settings, GMC : No warppoints
Format settings, Matrix : Default (H.263)
Muxing mode : Packed bitstream
Codec ID : XVID
Codec ID/Hint : XviD
Duration : 30mn 44s
Bit rate : 1 128 Kbps
Width : 512 pixels
Height : 384 pixels
Display aspect ratio : 4:3
Frame rate : 29.970 fps
Color space : YUV
Chroma subsampling : 4:2:0
Bit depth : 8 bits
Scan type : Progressive
Compression mode : Lossy
Bits/(Pixel*Frame) : 0.191
Stream size : 248 MiB (90%)
Writing library : XviD 1.0.0 (UTC 2004-05-09)
Audio
ID : 1
Format : MPEG Audio
Format version : Version 1
Format profile : Layer 3
Mode : Joint stereo
Codec ID : 55
Codec ID/Hint : MP3
Duration : 30mn 44s
Source duration : 30mn 45s
Bit rate mode : Variable
Bit rate : 108 Kbps
Nominal bit rate : 128 Kbps
Channel(s) : 2 channels
Sampling rate : 48.0 KHz
Compression mode : Lossy
Delay relative to video : 384ms
Stream size : 23.8 MiB (9%)
Alignment : Aligned on interleaves
Interleave, duration : 24 ms (0.72 video frame)
Interleave, preload duration : 1450 ms
Writing library : LAME3.93
Encoding settings : -m j -V 0 -q 2 -lowpass 15.3 –abr 128
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