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1000 tulosta hakusanalla Rodney Castleden
Backcourt: The Anatomy of a State Championship Season
Rodney Faucett
Createspace Independent Publishing Platform
2011
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Problems in Problem Solving: : Psychological Models of Creative Problem Solving
Rodney V. McCormick Ph. D.
Createspace Independent Publishing Platform
2010
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Why DO I have to Know Mathematics: You Don't- But, That's the Problem
Rodney E. McNair
Createspace Independent Publishing Platform
2011
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STRAW MEN is an historical novel that's set in motion when, on July 2, 1881, Charles Julius Guiteau shoots President James Garfield in a Washington, DC train station. It quickly became apparent that Guiteau was a lunatic - he loudly proclaimed that he had acted entirely on his own, having been instructed by God to "remove" the President in order to save the country. But was Garfield's assassination truly the work of a deranged, lone gunman? The Byzantine political alliances that America's Gilded Age had inherited from the trauma of Civil War, together with the tangled, and very public, personal relationships of the country's most powerful leaders at the time, pointed toward the clear possibility of a larger, darker political plot. Had Guiteau, wittingly or not, merely been the sharp end of a well-disguised political conspiracy leading to a coup d'etat? The nation's doubts had to be put to rest, so the Secret Service - formed during the Civil War to combat an epidemic of counterfeiting - was called upon to mount a national investigation designed to sort out the whole truth behind Guiteau's attack. The shocking story that's gradually uncovered in the course of this investigation reveals that all the players, great and small, in this densely complicated historical drama were being set up and used for one hidden purpose or another.
Who am I? What could I Be? by Rodney Johnson
Updated "Humans And Their Universes": Science Out Of The Straitjacket: Rethinking General Relativity, E=mc2 ... and String Theory
Rodney Bartlett
Createspace Independent Publishing Platform
2011
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I saw a video ("Hidden Dimensions: Exploring Hyperspace" - http: //www.worldsciencefestival.com/hidden-dimensions) in which it was stated that mathematicians are free to imagine anything while physicists work in a very different environment constrained by experiment, and that the American physicist Richard Feynman (1918-1988) said scientists work in a straitjacket. Well, Albert Einstein (1879-1955) said "Imagination is more important than knowledge" so let's see what happens when we throw away everyday tradition and conformity, let our imaginations fly (while trying to stay grounded in science and technology), and thus release science from its straitjacket This little book has its beginnings in cellular automata (in mathematics and computer science, collections of cells on a grid that evolve through a number of discrete time steps according to a set of rules based on the states of neighbouring cells) and grew into a belief that the universe (electromagnetism, gravitation, space-time and, as we'll see, 5th dimensional hyperspace) has a digital (electronic) foundation. This belief can be supported by 11 steps that begin with an experiment in electrical engineering at Yale University in the USA. These steps logically lead to assertions of instant intergalactic travel, time travel into the past as well as the future (neither of which can be altered), of unification of the large-scale universe with small-scale quantum particles, that the universe is a computer-generated hologram, that everyone who ever lived can have eternal life and health, that motion is an illusion caused by the rapid display of digitally generated "frames", that the entire universe is contained in (or unified with) every one of its particles, that the terms "computer-generated" and "computer" do not necessarily refer to an actual machine sending out binary digits or qubits, that we only possess a small degree of free will, that humanity could have created our universe and ourselves though unification physics says a being called God must nevertheless exist and likewise be Creator, and that Einstein's E=mc squared equation could be modified for the 21st century, reflecting the digital nature of reality. Though these things may be unbelievable in 2011, we should not ignore the possibilities of their being true or of their showing that reality is basically digital because they are the logical product of already demonstrated electrical engineering and trips into space, science is investigating time travel and unification, the notion of motion has been suspect to some ever since the ancient Greek philosopher Zeno of Elea (490?-420? B.C.) argued that motion is absurd, and many religions worldwide speak of God and have some concept of survival of bodily death.
Tomorrow's Science Today "If a complete unified theory was discovered, it would only be a matter of time before it was digested and simplified ... and taught in schools, at least in outline. We should then all be able to have some understanding of the laws that govern the universe and are responsible for our existence." ("A Brief History of Time" by Stephen Hawking, Introduction by Carl Sagan - Bantam Press 1988, page 168) So let's give credit where credit is due and encourage the scientists to pursue the mathematics and measurements which we may find boring and tedious, but let's remind them occasionally that maths and measures are nothing unless they give everyone understanding which can show the way when scientists get lost in their details and competing theories. I saw a video ("Hidden Dimensions: Exploring Hyperspace") in which it was stated that mathematicians are free to imagine anything while physicists work in a very different environment constrained by experiment, and that the American physicist Richard Feynman (1918-1988) said scientists work in a straitjacket. Well, Albert Einstein (1879-1955) said "Imagination is more important than knowledge" so let's see what happens when we throw away everyday tradition and conformity, let our imaginations fly (while trying to stay grounded in science and technology), and thus release science from its straitjacket This article has its beginnings in cellular automata (in mathematics and computer science, collections of cells on a grid that evolve through a number of discrete time steps according to a set of rules based on the states of neighbouring cells) and grew into a belief that the universe (electromagnetism, gravitation, space-time and, as we'll see, 5th dimensional hyperspace) has a digital (electronic) foundation. It logically leads to assertions of instant intergalactic travel, time travel into the past as well as the future (neither of which can be altered), of unification of the large-scale universe with small-scale quantum particles, that the universe is a computer-generated hologram, that everyone who ever lived can have eternal life and health, that motion is an illusion caused by the rapid display of digitally generated "frames", that the entire universe is contained in (or unified with) every one of its particles, that the terms "computer-generated" and "computer" do not necessarily refer to an actual machine sending out binary digits or qubits, that we only possess a small degree of free will, that humanity could have created our universe and ourselves though unification physics says a being called God must nevertheless exist and likewise be Creator, and that Einstein's E=mc2 equation could be modified for the 21st century, reflecting the digital nature of reality. Though these things may be unbelievable in 2011, we should not ignore the possibilities of their being true or of their showing that reality is indeed digital because they are the logical product of already demonstrated electrical engineering and trips into space, science is investigating time travel and unification, the notion of motion has been suspect to some ever since the ancient Greek philosopher Zeno of Elea (490?-420? B.C.) argued that motion is absurd, and many religions worldwide speak of God and have some concept of survival of bodily death.
Ten Bridges Seven Churches No Stop Light
Rodney Earl Andrews
Createspace Independent Publishing Platform
2011
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TOMORROW'S SCIENCE TODAY - Proposed Future Discoveries in Science, and How Everyone will see Everything Differently: A broad outline of future discove
Rodney Bartlett
Createspace Independent Publishing Platform
2011
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Searching for Isum: Over Genealogical Brick Walls
Rodney V. McCormick
Createspace Independent Publishing Platform
2011
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The idea for this book was conceived over the second bottle of Villa Maria's Caber net Medot '89, at the dinner of the Australasian Combinatorics Conference held at Palmerston North, New Zealand in December 1990, where the authors first met and discovered they had a number of interests in common. Initially, we embarked on a small project to try to formulate reductions to address the apparent parame terized intractability of DOMINATING SET, and to introduce a structure in which to frame our answers. Having spent several months trying to get the definitions for the reductions right (they now seem so obvious), we turned to our tattered copies of Garey and Johnson's work [239]. We were stunned to find that virtually none of the classical reductions worked in the parameterized setting. We then wondered if we'd be able to find any interesting reductions. Several years, many more bottles, so many papers, and reductions later it [3] seemed that we had unwittingly stumbled upon what we believe is a truly central and new area of complexity theory. It seemed to us that the material would be of great interest to people working in areas where exact algorithms for a small range of parameters are natural and useful (e. g. , Molecular Biology, VLSI design). The tractability theory was rich with distinctive and powerful techniques. The intractability theory seemed to have a deep structure and techniques all of its own.
This book serves as an introduction to calculus on normed vector spaces at a higher undergraduate or beginning graduate level. The prerequisites include basic calculus and linear algebra, as well as a certain mathematical maturity. All the important topology and functional analysis topics are introduced where necessary.In its attempt to show how calculus on normed vector spaces extends the basic calculus of functions of several variables, this book is one of the few textbooks to bridge the gap between the available elementary texts and high level texts. The inclusion of many non-trivial applications of the theory and interesting exercises provides motivation for the reader.