This is my third year beginning at WordPress. To tell you in one sentence what I’ve learned in these past two years at WordPress, I’ll put it this way:
All of creation is to comprehend together that reality is the experience of expanding kindness.
There is no other need for time. We are not humans, planets and stars blowing on a solar wind. We are mind. We are with all that is when we are with being in God’s will. True mind is in His love. This is what is important.
The truth is in our kindness.
I’ve known no greater kindness than contemplating a sense of love with Almighty God.
I’ll share with you a kindness today is that I am worthy of love. You are the worth of my love. My challenge today is to understand that. I pray that God will expand in me today, absolute awareness; His love of you in Him.
I was wondering what I’d most love to share as a kickoff into my third year here. I settled on one of my favorite subjects. I’ve always wanted Einstein to be fun at least and maybe even easy-peezy to understand. So, here is my conclusion for today’s contribution. I hope that this is easy as 15 minutes of your time and as wonderful as a visit with your friend may be.
Enjoy:
Einstein’s Relativity: Time Dilation
Einstein: “Any person moving at a constant velocity will observe the same laws of physics that a stationary person observes.”
Since the speed of light is part of the laws of physics, Einstein postulated that all observers will measure the same speed of light regardless of their state of motion. But speed is just a measure of distance moved in a given time and in order to agree on the speed of light different observers might have to disagree about distance and time.
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… In 1915 Albert Einstein formulated the theory of general relativity which fundamentally changed our understanding of gravity. He explained gravity as the manifestation of the curvature of space and time. Einstein’s theory predicts that the flow of time is altered by mass. This effect, known as “gravitational time dilation”, causes time to be slowed down near a massive object. It affects everything and everybody; in fact, people working on the ground floor will age slower than their colleagues a floor above, by about 10 nanoseconds in one year. This tiny effect has actually been confirmed in many experiments with very precise clocks. Now, a team of researchers from the University of Vienna, Harvard University and the University of Queensland have discovered that the slowing down of time can explain another perplexing phenomenon: the transition from quantum behavior to our classical, everyday world.
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The first thing that I felt when I sat back today to begin here was that I’ve missed you all for most of this year while I was working over at my Facebook page. I don’t use WordPress the same way that I’d begun here. This is now a place for pages that I want to feature and not a place where I post a daily update.
I connected with more than 1500 friends at Facebook during this past year and my work consumes most of my online time. I hope you will drop on by my FB page if you’d like… really.
“A human being is a part of the whole called by us universe, a part limited in time and space. He experiences himself, his thoughts and feeling as something separated from the rest, a kind of optical delusion of his consciousness. This delusion is a kind of prison for us, restricting us to our personal desires and to affection for a few persons nearest to us. Our task must be to free ourselves from this prison by widening our circle of compassion to embrace all living creatures and the whole of nature in its beauty.” ~ Albert Einstein
Albert Einstein had a powerful internal motivation to explain how the universe and the quantum particles of our physical objects form. He wasn’t able to put this into mathematical expression. However, his contributions still amaze us. This post came together because although I didn’t want to take much time at first with it — when I received a comment and more interest than I’d expected, I decided to put more work into it. I do things like this sometimes with posts… it isn’t word-pressing of the normal sort but these articles really are mostly for me and those closest to me — I share here for reasons additional to public blogging.
I think (speculate) that Einstein “knew” that equations that he presented were from a greater consciousness than he alone; the inside workings of his fascination with reality that this inner vision, uniquely his to share, was from the source of his nature, to become a science for all of us in our shared reality. Perception then was as important to him as it is becoming in this modern age of exploring an inner shift and a great awakening. What sense we have in three dimensional reality is as difficult for us to understand as was a grand-unified theory for Einstein to explain.
I believe we are to pick up where Einstein left of — us all, together, coming to agreement that the outer reality is a mirror of sorts that, established here, in space-time as in a sense limiting us to the outer five senses while internally we have perhaps many softer, greater sixth senses.
I do my best to advance my own progress with these posts, while at the same time, making progress to advance understanding of our space-time universe. So, here I keep coming back to my initial inspirations with Einstein. While he is not the only scientist that I admire as deeply, his work is where I can be safely with this challenge to balance my inner knowing to what we perceive in our shared universe.
1905 was Albert Einstein’s year. While working as a patent clerk in Bern, Switzerland, Einstein submitted a supplement to his special theory of relativity of earlier that year. In it he derived the most famous equation of all time; E=MC²; energy is equal to mass multiplied by the speed of light squared.
The equation showed that mass and energy were related and that one could, in theory, be transformed into the other. But because the speed of light squared is such a huge number, it meant that even a small amount of mass could potentially be converted into a huge amount of energy.
Einstein – Birth Of God’s Equation (E=MC²)
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Beginning in early disillusionment with religion, and developing an intense fascination with geometry, Einstein’s “theory of knowledge” moved him past the foundations of Newtonian physics to a development of his own theories of relativity, and later to opposition of some assumptions of quantum theory.
Einstein’s great original contribution to quantum theory (1905) was just the recognition of how physical phenomena like the photo-effect may depend directly on individual quantum effects. He demonstrated step-by-step the conclusion that any radiation process involves the emission or absorption of individual light quanta or “photons” with energy and momentum (it was of great interest for me to review how human vision works).
E = hf and P = hs
h is Planck’s constant, while f and s are the number of vibrations per unit time and the number of waves per unit length
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In 1909, Albert Einstein became associate professor of theoretical physics at Zurich, in 1911 professor of theoretical physics at the German University in Prague and then returned to the Institute of Technology in Zurich the following year. In 1914, he was appointed director of the Kaiser Wilhelm Institute for Physics in Berlin. He became a German citizen in the same year. In 1916 he published his theory of general relativity.
“When I was a fairly precocious young man I became thoroughly impressed with the futility of hopes and striving that chase most men restlessly through life. Moreover, I soon discovered the cruelty of that chase, which in those years was much more carefully covered up by hypocrisy and glittering words than is the case today. . . . As the first way out there was religion, which is implanted into every child by way of the traditional education machine. Thus I came, though the child of entirely irreligious (Jewish) parents, to a deep religiousness, which, however, reached an abrupt end at the age of twelve.”
Albert Einstein built up his theory of gravity, general relativity, through a series of ‘thought experiments’ and mathematical proofs. In 1915 he showed that gravity is caused by objects with mass such as planets and stars warping space-time. For example, the Earth is caught in the curve in space-time caused by the Sun, and the Moon is caught in a warp created by the Earth.
Similarly light is bent when it passes massive objects like galaxies (it was of great interest for me to review how our human brain works to assemble an inner awareness of the outer physical universe that we can perceive by this both to limit our perceptions and also allow altering these internally — thus the benefits of changing how I perceive reality by seeking internally the humility of staying with my inner sense of confusions and upsets became essential to me).
General relativity
Einstein’s theory has important astrophysical implications. For example, it implies the existence of black holes—regions of space in which space and time are distorted in such a way that nothing, not even light, can escape—as an end-state for massive stars.
There is ample evidence that the intense radiation emitted by certain kinds of astronomical objects is due to black holes; for example, micro-quasars and active galactic nuclei result from the presence of stellar black holes and black holes of a much more massive type, respectively.
The bending of light by gravity can lead to the phenomenon of gravitational lensing, in which multiple images of the same distant astronomical object are visible in the sky.
General relativity also predicts the existence of gravitational waves, which have since been observed indirectly; a direct measurement is the aim of projects such as LIGO and NASA/ESA Laser Interferometer Space Antenna and various pulsar timing arrays. In addition, general relativity is the basis of current cosmological models of a consistently expanding universe.
Einstein received the 1921 Nobel Prize in Physics for his discovery of the law of the photoelectric effect and his work in the field of theoretical physics.
Einstein’s Theory Of Relativity
A really rare documentary about Einstein’s Theory of Relativity that changed our perception of reality and the workings of the Universe.
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Time Since Einstein
Albert Einstein shattered previous ideas about time, but left many pivotal questions unanswered: Does time have a beginning? An end? Why does it move in only one direction? Is it real, or something our minds impose on reality? Journalist John Hockenberry leads a distinguished panel, including renowned physicist Sir Roger Penrose and prominent philosopher David Albert, as they explore the nature of time.
I updated this post because the original video was deleted from Youtube. I added some additional video after replacing the missing video. Since I had posted this, I opened an account at Facebook.
Over 100 years ago, Albert Einsteingrappled with the implications of his revolutionaryspecial theory of relativityand came to a startling conclusion: mass and energy are one, related by the formula E=MC². In “Einstein’s Big Idea,” NOVA dramatizes the remarkable story behind this equation. E=MC² was just one of several extraordinary breakthroughs that Einstein made in 1905, including the completion of his special theory of relativity, his identification of proof that atoms exist, and his explanation of the nature of light, which would win him the Nobel Prize in Physics. Among Einstein’s ideas, E=MC² is by far the most famous. Yet how many people know what it really means? In a thought-provoking and engrossing docudrama, NOVA illuminates this deceptively simple formula by unraveling the story of how it came to be. .
You fell into a black hole…
oh, my, that’s not so good…
here is Dr. Neil deGrasse Tyson to explain:
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Program Description Our Milky Way may harbor millions of black holes… the ultra dense remnants of dead stars. But now, in the universe far beyond our galaxy, there’s evidence of something far more ominous. A breed of black holes that has reached incomprehensible size and destructive power. Just how large, and violent, and strange can they get?
A new era in astronomy has revealed a universe long hidden to us. High-tech instruments sent into space have been tuned to sense high-energy forms of light — x-rays and gamma rays — that are invisible to our eyes and do not penetrate our atmosphere. On the ground, precision telescopes are equipped with technologies that allow them to cancel out the blurring effects of the atmosphere. They are peering into the far reaches of the universe, and into distant caldrons of light and energy. In some distant galaxies, astronomers are now finding evidence that space and time are being shattered by eruptions so vast they boggle the mind.
We are just beginning to understand the impact these outbursts have had on the universe: On the shapes of galaxies, the spread of elements that make up stars and planets, and ultimately the very existence of Earth. The discovery of what causes these eruptions has led to a new understanding of cosmic history. Back in 1995, the Hubble space telescope was enlisted to begin filling in the details of that history. Astronomers selected tiny regions in the sky, between the stars. For days at a time, they focused Hubble’s gaze on remote regions of the universe.
These Hubble Deep Field images offered incredibly clear views of the cosmos in its infancy. What drew astronomers’ attention were the tiniest galaxies, covering only a few pixels on Hubble’s detector. Most of them do not have the grand spiral or elliptical shapes of large galaxies we see close to us today.
Instead, they are irregular, scrappy collections of stars. The Hubble Deep Field confirmed a long-standing idea that the universe must have evolved in a series of building blocks, with small galaxies gradually merging and assembling into larger ones.
“Life as we know it
is a thin layer of events
covering a deeper reality.”
~ Deepak Chopra
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Hebrews 11:3 Through faith we understand that the worlds were framed by the word of God, so that things which are seen were not made of things which do appear.
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Let there be light… Religious believe that God willed it, and at once there was light.
Quantum theory tells us that both light and matter consist of tiny particles which have wavelike properties associated with them. Light can be thought of as an electromagnetic wave that travels at the speed of light. However, light is also particles called photons. Albert Einstein first explained the photoelectric effect is proof that light exists in tiny packets of particles, which he called photons.
With Max Planck’s work on quanta of heat, Einstein went on to propose the most stunning idea of twentieth century physics. We live in a quantum universe, one built out of tiny, discrete chunks of energy and matter that seem to alternate as waves and particles. Light is composed of particles called photons, and matter is composed of particles of an atom called electrons, protons, and neutrons.
In 1919, six years before the invention of quantum mechanics and the uncertainty principle, Einstein showed that there would be a problem with the theories of cause and effect. The peculiar dual nature of quanta as both waves and particles might make it impossible, he warned, to definitively tie effects to their causes
Materialism is an atheistic philosophy that says that all of reality is reducible to matter and its interactions. It has gained ground because many people think that it’s supported by science. In reality, quantum mechanics says that even if we have complete information about the state of a physical system, the laws of physics typically only predict probabilities of future outcomes. These probabilities are called the “wave function” of the system.
Personally, I love it… that the real analysis; the actual science supports that something unnatural occurs and that is what forms matter. If you are a believer that science can explain precisely how it works… well, it can’t. It is still a bit of a mystery. In fact its a mystery that science may never solve.
What is the most astounding scientific fact about the Universe — of all time?
Program Description Astrophysicist Dr. Neil DeGrasse Tyson is asked by a reader of TIME magazine, “What is the most astounding fact you can share with us about the Universe?” This was his answer. NOTE: I typed the transcript at the end of this post.
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I posted several articles previously that highlight some tremendous accomplishments by Albert Einstein (listed below). This one is about dreams that Albert Einstein could not transform into a unifying theory for reality — evidence strongly indicates this was his greatest desire.
His work and the stimulation that he applied in vigorous debates and with encouragements for his colleagues did however make the pain tolerable.
First, lets review his momentum.
In 1905, Einstein published exceptional papers that proposed the existence of the photon as an elementary particle associated with electromagnetic radiation (light), detailed photoelectric effect, demonstrated the existence of atoms, wrote an introduction to special relativity, and published the paper that led to the famous E=MC² equation that defines matter as condensed energy. He continued work and in 1907, he developed the first quantum theory of specific heats and from 1907 to 1915, Einstein developed the theory of general relativity.
The Danish physicist, Niels Bohr provided in 1913 a quantum idea to explain the actions of electrons inside atoms. Einstein recognized that a quantum theory may be used to explain the characteristic light as emitted by atoms and that a great discovery had been made. He referred to Bohr’s work as “the highest form of musicality in the sphere of thought.”
In 1915, Einstein introduced the General Theory of Relativity. According to this revolutionary theory space and time are not Absolute. Space-time is not a fixed background for events. Instead, dynamic quantities of matter and energy form matter in ways that are unclear to this day. Einstein’s finding proves that space-time are defined within the universe — only. Further, his findings also prove matter is highly concentrated energy.
Matter is actually energy condensed to a slow vibration. Watch this:
Program Description
With his famous equation E=MC², Albert Einstein proved that when you come right down to it everything in the universe is energy. Both in the physical plane of our reality of matter and the abstract reality of our mind are made up of energy patterns.
The concept of a universal energy flow is not a new one. The ancient Chinese called this flow chi; the ancient Hindus called it prana. The disciplines that developed in those two cultures – t’ai chi and yoga, respectively- are based on the art of tuning in to the flow of energy and using it to centre the self.
Particle physicists try to understand the nature of nature at the smallest scales possible. Today, we know that atoms do not represent the smallest unit of matter. Particles called quarks and leptons seem to be the fundamental building blocks – but perhaps there is something even smaller.
Empty space, we have discovered, is actually not empty at all.
Astrophysicists have found that less than 10 percent of the mass of the entire universe consists of the kind of “luminous” matter that we can see. What is the dark matter that makes up the rest of the universe? How can we find out? Though we understand many important properties of the fundamental building blocks of our universe, there are untold mysteries still to solve.
Advances in technology allow physicists to build more powerful and sophisticated instruments to look deeper and deeper inside matter. Like adventurers entering unknown territory, physicists forge ahead into ever smaller dimensions.
What will be their next discovery?
Spoken by Deepak Chopra
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It took many years to finish and then prove general relativity. Indeed however, the effort paid off. The GPS on your phone couldn’t work without General Relativity. He made discovery possible for the mathematics of using redshifts (traces of movements) of distant galaxies to discover how the universe is expanding. General Relativity includes Einstein’s 10 field equations (EFE) that aided Monseigneur Georges Lemaître‘s proposal of what’s known as the Big Bang theory and also for predictions for the existence of black holes. Without his equations there would not be gravitational lensing that is presently being used to do research as to how dark matter may influence the universe. Other areas such a nuclear power and discovery of massive objects that distort space-time such as neutron stars that have too little luminosity also are managed because of Einstein’s General Relativity mathematics.
As Einstein was becoming aware of what was a new atomic theory, by 1915 having the Bohr (quantum) model of the atom, he understood that energy levels of electrons are predictably discrete and that electrons revolve in orbits around an atomic nucleus but that the electron can jump from one energy level (or orbit) to another. So, by 1916 Einstein devised a vastly improved fundamental statistical theory of heat that proved itself based on the quantum of energy. His theory predicted that as light passed through a substance it could stimulate the emission of more light. This effect is at the heart of the modern laser.
Einstein’s studies revealed the possibility of making a powerful light amplifier.
Modern lasers have thousands of practical applications based on this. Lasers are great aids in research as scientists explore theories and work further to discover the nature of our universe.
By 1925 a quantum theory of physics emerged by the collective creation of a generation of theoretical physicists from many nations. Scientists were collaborating and debating how to interpret the mechanics of quantum atoms. They already sensed the vast importance of the work they were doing.
Einstein took an active role in these discussions. Heisenberg, Bohr, and other creators of the theory insisted that the new theory provided for no meaningful way to discuss certain details of an atom’s behavior. For example, one could never predict the precise moment when an atom would emit a quantum of light. Einstein could not accept this lack of certainty; and he raised one objection after another. At the Solvay Conferences of 1927 and 1930 the debate between Bohr and Einstein went on day and night, neither man conceding defeat. Momentum slowed. Herein is the basis for the title.
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Einstein was there at the 1927 conference of physics. So was Bohr and many other famous scientists. Said Einstein, “Quantum mechanics is certainly imposing. But an inner voice tells me that it is not yet the real thing. The theory says a lot, but does not really bring us closer to the secret of the ‘Old One.’ I, at any rate, am convinced that He is not playing at dice.”
However, by the mid 1930s, Einstein accepted quantum mechanics as a consistent theory for understanding behavior of atoms. He recognized that it was “the most successful physical theory of our time.” However, Einstein could not accept quantum mechanics as a completed theory since its mathematics did not describe individual events. He hoped his own general theory of relativity would benefit by his investigations of quantum mechanics.
The search for a unified theory would occupy much of the rest of his life. However, the unified theory still eludes scientist to this day. Yet, much has been our benefit as the science of the early 1900s is still generating stimulating interests, technology and scientific milestones.
Check back frequently. I love learning with you.
I hope everyone is enjoying my series on Einstein and its side tracks with me. Its been a great review for me and actually, its been helpful for some school children as well. Links to the other articles and a couple of side tacks are listed below.
What is the most astounding scientific
fact about the Universe — of all time?
video transcript:
“The most astounding fact… the most astounding fact is the knowledge; that the atoms comprise life on earth; the atoms that make up the human body, are traceable to the crucibles, that cooked light elements into heavy elements in their core, under extreme temperatures and pressures.
These stars, the high mass ones among them, went unstable in their later years. They collapsed and then exploded, scattering their enriched guts, across the galaxy.
Guts made of carbon, nitrogen, oxygen, and all the fundamental ingredients of life itself. These ingredients become part of gas clouds, that condense, collapse, form the next generation of solar systems – stars with orbiting planets and those planets now have ingredients for life itself.
So that when I look up at the night sky, and I know that yes, we are part of this universe, we are in this universe, but perhaps more important than both of those facts is that the universe is in us.
When I reflect on that fact, I look up – many people feel small, because they’re small and the universe is big, but I feel big; because my atoms, came from those stars.
There is a level of connectivity.
That’s really what you want in life, you want to feel connected, you want to feel relevant. You want to feel like your a participant in the goings on of activities and events around you. That’s precisely what we are, just by being alive.”
~ Neil DeGrasse Tyson
I just love what Tyson said in answer to this question.
This is a dramatization According to Einstein (but not exactly)
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I want to keep this short. The video is of course only a dramatization of some of how Einstein diminished atheist philosophies. However, the little story is not complete. I’ll report just a bit of what he himself said regarding his beliefs.
Albert Einstein‘s religious views were reported comprehensively. He believed in the “pantheistic” God ofBaruch Spinoza, not in a personal god. Einstein had, “an attitude of humility corresponding to the weakness of our intellectual understanding of nature and of our own being.” [1]
Einstein says that he abandoned the faith of his early childhood:
“I came—though the child of entirely irreligious (Jewish) parents — to a deep religiousness, which, however, reached an abrupt end at the age of twelve. Through the reading of popular scientific books I soon reached the conviction that much in the stories of the Bible could not be true. The consequence was a positively fanatic orgy of freethinking coupled with the impression that youth is intentionally being deceived by the state through lies; it was a crushing impression. Mistrust of every kind of authority grew out of this experience, a skeptical attitude toward the convictions that were alive in any specific social environment — an attitude that has never again left me, even though, later on, it has been tempered by a better insight into the causal connections.
It is quite clear to me that the religious paradise of youth, which was thus lost, was a first attempt to free myself from the chains of the ‘merely personal,’ from an existence dominated by wishes, hopes, and primitive feelings.
Out yonder there was this huge world, which exists independently of us human beings and which stands before us like a great, eternal riddle, at least partially accessible to our inspection and thinking.
The contemplation of this world beckoned as a liberation, and I soon noticed that many a man whom I had learned to esteem and to admire had found inner freedom and security in its pursuit.
The mental grasp of this extra-personal world within the frame of our capabilities presented itself to my mind, half consciously, half unconsciously, as a supreme goal. Similarly motivated men of the present and of the past, as well as the insights they had achieved, were the friends who could not be lost. The road to this paradise was not as comfortable and alluring as the road to the religious paradise; but it has shown itself reliable, and I have never regretted having chosen it.” [2]
1 Isaacson, Walter (2008). Einstein: His Life and Universe. New York: Simon and Schuster, pp. 390 2 Einstein, Albert (1979). Autobiographical Notes. Chicago: Open Court Publishing Company, pp. 3-5
I read a lot more but the abovesummaryis all that I need to understand that Einstein was not an atheist. I’ll suppose that his scientific imagination materialized by nature of his rebellious personality.
Here is a video (longer) including the above information:
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Thanks for learning with me. Come back often because there is lots more to learn.
Nothing in the universe is faster than the speed of light – or is it?
The curvature of space-time is related directly to energy and momentum of whatever matter and radiation are present (in space-time). This is specified by the Einstein field equations. Predictions of general relativity concern especially the passage of time, the geometry of space, the motion of bodies in free fall, and the propagation of light. The theory and other parts of relativity theory are used today in all calculations related to gravity and space-time and light. However, general relativity cannot be reconciled with the laws of quantum physics to produce a complete and self-consistent theory of quantum gravity.
Today, we’ll take a look at some of the possible unknowns that may contribute to finding Einstein’s theories lacking. For instance, we know that Einstein’s equations predict areas of space-time singularities and that paths of light and falling particles may come to an abrupt end in these places, thus causing problems as geometry of those areas becomes ill-defined, making calculations inaccurate. In general relativity, gravity perhaps is advancing with the universe expansion or at the speed of light — this isn’t clear yet. However, it also isn’t clear yet as to what the fabric of space-time is made from. Is the fabric there before particles of matter or is it expanding with the particles and with the galaxies that expand in space-time. Also, its not possible to create definitions for the total mass (or energy) of the universe, nor for the exact accelerating of the expansion.
So, maybe faster-than-light speed is not really impossible as the equations “proved.”
Senario 1: Warp Speed
Think MILLION miles per minute spaceships — or — no-movement spaceships — which is more likely? As it turns out, the latest ideas about super speed space travel are along the lines of developing a new technology that warps space-time. So, by cloaking a ship in a warped space-time fabric it can move to a different position in the universe at incredible speeds — faster than light — call it warp-drive; but actually the spaceship isn’t doing the moving, space-time moves and the ship just sits in a warp of space-time that gets moved along due to its wrapping in a fabric that isn’t held in place as other objects that are not so wrapped. It’s origin is science fiction but its being looked at as a future method for space travel.
NASA Claims Starships Traveling Faster-Than-Light May Be Possible
Program Description Scientists at NASA think that bending space and time is possible. This may allow space travel atfaster than lightspeed to different solar systems and galaxies. Youtube watch?= aqfkf0x8sqc
Is Warp Drive Possible?
Program Description The physics of space-time described by Einstein’sTheory of General Relativityallows space-time to become warped due to the relationship between matter/energy density and the gravitational field described by theEinstein Field Equations. Matter and Energy found in thelarge scale structure of the universecreates a positive torsion in space-time, causing the warping of space-time which is associated with the strength of the gravitational force. In quantum mechanics, zero point energy fluctuations can create negative energy density which should theoretically, in a large enough density, create a negative torsion on space-time. This knowledge itself is interesting, however the consequences of it could change our common sense notions of motion and provide a way to challenge the cosmic speed limit, the speed of light. In 1994,Miguel Alcubierredeveloped a geodesic equation to describe space-time warped in a bubble around a ship, creating a “warp drive.” The warp drive proposed byAlcubierrecould achieve near light speeds and even faster-than-light speeds by distorting space-time. To accomplish this, a theoretical device would generate a field of negative energy that would squeeze or stretch space-time, creating the bubble. The bubble would ride the distortions like a surfer on a wave. As evidenced by the uniformity of theCosmic Microwave Backgroundfrom the Big Bang, space-time can expand so quickly that objects can move faster than the speed of light. Therefore the current models of physics generally allow for the existence of a warp field that can accelerate objects faster than the speed of light. The real questions to ask is whether or not such a warp field can exist on macroscopic scales and if so can it remain is stable long enough to traverse a significant distance. Moreover it is unknown how it is technologically possible, i.e. under what conditions does matter allow for the creation of a negative energy density. Youtube watch?=dXyQ92SPWds
Scenario 2: Newly Found Super Speedy Particles Meantime, CERN scientists are working on faster than light application with the CERN particle accelerator.
Particles that travel faster than light?
Program Description Scientists at theConseil Européen pour la Recherche Nucléaire (CERN) in Geneva say they have discoveredsub-atomic particles that move even faster than light speed. If proven, it will be more significant than the discovery of radioactivity. In fact, faster than light particles would put Einstein’s theories of relativity back on the physics to do list. Youtube watch=POiR5yEk3LA
A Unified Theory Of All of Physics Might Be Nice To Have
Einstein worked to unify quantum physics with his theories and was unable. The work has been taken up by science at hundreds of Universities and other organizations like CERN and NASA and by other private companies. So far, its been interesting but I’m out of space for now — so, come on back another day for part three of Einstein’s nightmares.
Thanks for learning with me.
Come back often because there is lots more to learn.
Yes, says Joel Mobley, a physicist at the University of Mississippi in the US. In simulations, Mobley demonstrates that ultrasound pulses could move at “superluminal” speeds (at the speed of light or exceeding that) when transmitted through water that contains thousands of tiny plastic beads.
Mobley calculated that the “group velocity” of a pulse of high-frequency sound waves could be increased by five orders of magnitude by sending it through a small chamber that contains about 8 milliliters of water and some 400,000 tiny plastic spheres. This means that the group velocity would exceed the speed of light in a vacuum. The spheres have diameters of about 0.1 mm and account for about 5% of the volume of the water-bead mixture.
The increase in speed is caused by dispersion — the phenomenon that causes different wavelengths to move at different phase velocities. When the pulse enters the mixture it experiences severe dispersion, which causes the different wavelengths to travel at very different speeds. This changes the shape of the pulse and can result in the pulse itself moving faster than the speed of light. However, the dispersion also significantly reduces the intensity of the pulses.
In a physics report posted at http://phys.org/news88249076.html, William Robertson’s team from Middle Tennessee State University also showed that the group velocity of sound waves can become infinite, and even negative. However, “no wave energy exceeded the speed of light,” said Robertson. Essentially, the pulse that made it through the filter at faster than light was an exact (but smaller) replica of the input pulse.
Gravity and space-time travel remember is what general relativity defines of most interest to Einstein’s statements about the speed of light. Is it possible that something may exceed the speed of light? Well, I’m not going to answer that yet. However, for now, I’ll say as far as I know, light speed is a cosmic speed limit. However, there may perhaps be methods in the works that will take normal space-time out of the experiment. Let’s keep thinking about this.
Program Description The Elegant Universe, “The Edge of Knowledge,” The central problem of modern physics: the incompatibility of Einstein’s theory of general relativity with quantum mechanics. He then lists the physical curiosities — properties of the motion of light, gravity, and the behavior of particles at the subatomic level — that have prevented physicists from establishing a single coherent theory for how the universe works. At the end of this section, Greene describes both the objectives and the promise of superstring theory, which attempts to merge the laws of general relativity with those of quantum mechanics. Superstring theory depicts particles that are one hundred billion-billion (a quintillion) times smaller than a single atomic nucleus — not as dots but as tiny strings of energy. They vibrate in different patterns, which in turn produce different particle properties. But because these strings are too tiny to locate with current scientific tools, superstring theory is not yet predictable or testable.
What started the big bang? What caused expansion to accelerate? What is the source of the mysterious dark energy that is apparently causing the universe to speed up its expansion? Maybe we are living inside a black hole…
By Rebecca Boyle
Posted 07.23.2010 at 11:53 am
Popular Science
Scientists trying to explain the universe’s accelerating expansion usually point to dark energy, which seems to be pushing everything apart. But an Indiana University professor has a new theory, reports New Scientist: We’re inside a black hole that exists in another universe.
Specifically, a black hole that rebounded, somewhat like a spring.
Some fairly mind-blowing physics is involved here, but the gist is that Nikodem Poplawski of IU-Bloomington used a modified version of Einstein’s general relativity equation set that takes particle spin into account. Including this variable makes it possible to calculate torsion, part of the geometry of space-time. It also gets rid of the black hole singularity, a phenomenon that general relativity cannot explain.
In a study published earlier this year, Poplawski said “When the density of matter reaches epic proportions, torsion counters gravity. This prevents matter from compressing indefinitely to a singularity of infinite density. Instead, matter rebounds like a spring, and starts expanding again.”
In Poplawski’s latest study, his calculations show that space-time inside the black hole expands to about 1.4 times its smallest size in as little as 10-46 seconds — two orders of magnitude faster, for lack of a better word, than the Planck time. This brisk bounce-back could have been what led to the expanding universe that we see today.
But here’s the real kicker: as Poplawski says, “We may not be living in our universe at all; we might be living inside a rebounded black hole that exists in a different universe. We could tell by measuring the preferred direction of our universe. A spinning black hole would have imparted some spin to the space-time inside it, which would violate a law of symmetry that links space and time. This might explain why neutrinos oscillate between their antimatter and regular-matter states.”
I like to think of this as “Einstein’s Loves” Its a full length feature from PBS NOVA.
Einstein’s Big Idea
Commercial free! YAY
Program Description Over 100 years ago, Albert Einstein grappled with the implications of his revolutionary special theory of relativity and came to a startling conclusion: mass and energy are one, related by the formula E = mc2. In “Einstein’s Big Idea,” NOVA dramatizes the remarkable story behind this equation. E = mc2 was just one of several extraordinary breakthroughs that Einstein made in 1905, including the completion of his special theory of relativity, his identification of proof that atoms exist, and his explanation of the nature of light, which would win him the Nobel Prize in Physics. Among Einstein’s ideas, E = mc2 is by far the most famous. Yet how many people know what it really means? In a thought-provoking and engrossing docudrama, NOVA illuminates this deceptively simple formula by unraveling the story of how it came to be.
Einstein quotes:
“Gravitation is not responsible for people falling in love.”
Einstein was known for a few humorous comments regarding daily living.
To illustrate the effect, just image a very large ball and a much smaller ball rolling across elasticated cloth. The smaller ball will begin to move towards the larger ball since the cloth gives way more in that direction. By Einstein’s reckoning gravity is not a force, as Sir Isaac Newton speculated, but it is a consequence of the distortion of space and time. Any object distorts space-time and the bigger it is, the greater the effect.
The planets of our solar system are orbiting the Sun because they travel like everything in the universe at a high speed away from the point of origin towards the edges of the known universe and because the sun puts a huge dent in space-time. They are not being pulled by the Sun. They are following their course in a curved space-time deformation that is caused by the Sun.
The reason the planets never fall into the Sun is due to the speed at which they travel.
Rotation of a body causes a twist in nearby space-time.
It’s a bit much for the brain. But imagine the balls to be spinning tops. The elasticated cloth still gives way to a larger top more so than a smaller top. The smaller top moves toward the larger top. However, the tops, if they are projected straight ahead when thrown, keep on their general course away from the throw. The whole of the speeding objects and curvature and warping causes the rotations and spins and orbits and so on. WOW… we can’t probably follow in this thought experiment entirely — but its why the solar system keeps working as it is doing. This is why I say its a bit much for the brain. So, watch this:
Youtube watch?v=LoaOHvy5AcA video
I’m good with it. How about you? Watch it again if need be. Remember, we don’t have to take a test on this; you only need a basic understanding to move on.
This video is a more complete demonstration of the warps and curves of space-time:
Next, let’s look at how space-time or “the fourth dimension” works using some simple geometry. Again, I was able to find visual examples for you.
Is time uniformly ticking through-out the universe? Well, its not flat like a line from beginning to end — its got curves and ripples and its got bumps and mountains and its got valleys and its possibly got dead ends and so on — not straight like a line from a beginning to an end; not at all that way; yet, simple and yet, not uniform; no, not uniform. So, if one twin got into a futuristic spaceship for a 30 year trip straight out towards the next galaxy and back — what would be the outcome as far as time for the twins — one on Earth and the other traveling to the next galaxy and back?
Okeydokey… here goes:
The concept of time was thought always as starting at zero (a point) – for instance, usually, it is thought of as beginning at the time of the big bang in the physical universe.
Great… but according to research, a parallel universe may have no time dimension or its possible that time may be negative in a parallel universe. See, this is the problem with physics — it may be used to support any virtual possibility… hmm… not to worry on this for now, lets look at the possibility of time travel first. I’ll come back to the parallel universe idea in a future post.
There is another reason that I’ve written this — I’ll be getting into more about how space-time is also something that will yield incredible knowledge once it is out of our way. Here is a preview… give this a watch if you have about 10 more minutes:
Youtube watch?v=MN4KC_zlW4g video
For now, the lesson is about how time is relative. So, we’ve learned that travel backward in time is perhaps possible; even without a wormhole. Of course space travel is required and the trip would be lengthy in order for there to be enough time lapsed here while the travelers are in space for the change to be substantially significant. There will be technological and physiological problems yet to overcome as well. Yet, one day, someone may get to travel backwards in time just as illustrated. Imagine returning to Earth to be 5 or 10 or more years younger than a twin. That really would seem strange.
I hope that this may have been enjoyable and informative. I really do hope to get even better at making complex science of the universe easy to learn about, but I’m pretty happy with my progress. Comments, replies, and suggestions or constructive criticisms (or ping-backs) and so on are always welcomed here.
There is a reason that science can’t pronounce Schrodinger’s Cat dead or alive!Here is why: so, just for fun, think about it!Well, when the box is opened, if you look at the cat, a decision is final… only then is the cat found to be dead or alive. Otherwise, the quantum cat is either or neither… or, as was further suggested, the cat is both dead and alive. Now, this is STRANGE; to say the least. In another few installments, I want take this to some extremes. If you stick around, this cat puzzle will be only the tip of the huge unknown that is becoming known because of this very experiment. This strange thought experiment led to amazing discoveries about the properties of light, quarks, bosons, a time-space fabric, and lots more. Einstein probably can’t rest… its that exciting… so exciting that even grade school kids love learning about physics. This experiment led also to exploring the nature of consciousness and that is what I most want to explore.Strange but possibly true:
There is no other need for time. We are not humans, planets and stars blowing on a solar wind. We are mind. We are with all that is when we are with being in God’s will. True mind is in His love. This is what is important. 
I connected with more than 1500 friends at Facebook during this past year and my work consumes most of my online time. I hope you will drop on by my FB page if you’d like… really.
Eric
Here is why: so, just for fun, think about it!
Well, when the box is opened, if you look at the cat, a decision is final… only then is the cat found to be dead or alive. Otherwise, the quantum cat is either or neither… or, as was further suggested, the cat is both dead and alive. Now, this is STRANGE; to say the least. In another few installments, I want take this to some extremes. If you stick around, this cat puzzle will be only the tip of the huge unknown that is becoming known because of this very experiment. This strange thought experiment led to amazing discoveries about the properties of light, quarks, bosons, a time-space fabric, and lots more. Einstein probably can’t rest… its that exciting… so exciting that even grade school kids love learning about physics. This experiment led also to exploring the nature of consciousness and that is what I most want to explore.Strange but possibly true:
the Hunt for Truth 