Wednesday, November 25, 2009

2009 happy thanksgiving day pictures blessings

Have a happy Thanksgiving day!
happy thanksgiving, thanksgiving day blessings, thanksgiving day wishes, thanksgiving day quotes

Wednesday, November 18, 2009

michael newton hypnotherapy Between Lives

Michael Newton is a California state-certified Master Hypnotherapist, a member of the American Counseling Association and founder of The Newton Institute. He is an author of books on past life regression. Atypically, the emphasis in his style of regression is not on prior lives themselves but rather on episodes taking place between them, such as spiritual progress reviews and the planning of future incarnations.
Michael Newton Past Life Therapy Journey Between Lives video

Books by Michael Newton :

Journey of Souls
Destiny of Souls
Life Between Lives: Hypnotherapy for Spiritual Regression
Memories of the Afterlife: Life Between Lives Stories of Personal Transformation - Edited by Michael Newton

Michael Newton's private practice in Los Angeles includes behavior modification and helping people get in touch with their spiritual selves. He has developed his own technique of Age regression through which he has managed to regress his clients beyond their past-life experiences. He is considered a pioneer in uncovering the afterlife (or the spiritual world), the outcomes of which have been compiled from his many years of clinical research of the soul memory of his clients. For over 30 years of clinical research and practice, he is one of the earliest and few scientists using a scientific approach to discover and explain soul experiences. He has been the guest on many TV and radio talk shows.

He has been on the faculty of higher educational institutions as a teacher. He has taught and certified practicing Hypnotherapists the Life Between Lives training course. As of November 2003, Newton no longer teaches the entire coursework personally and has officially retired from seeing clients.
In 1998 he received the annual award for the "Most Unique Contribution" from the National Association of Transpersonal Hypnotherapists (NATH).

In 2001 he was a winner of the annual Independent Publishers Book Award for Destiny of Souls.
Journey of Souls is the title of the first book by Newton, published in 1994, in which he introduced his own technique in the area of "age regression" therapy. It documents the results of his 35 years of interviews of age regression case studies. His patients were originally seeking hypnotherapy as a therapeutic means. Newton describes that during their continuous visits, a great number of his patients regressed beyond this life and passed through the spirit worlds; through ongoing age regression sessions, these subjects have recalled and revealed their past life experiences and their journey through the spirit world. info (c)

What the bleep do we know Down the rabbit hole watch movie

watch movie on line What the bleep do we know Down the rabbit hole

What the bleep do we know? Down the rabbit hole is a 2004 film which combines documentary-style interviews, computer-animated graphics, and a narrative that posits a spiritual connection between quantum physics and consciousness. The plot follows the story of a deaf female photographer; as she encounters emotional and existential obstacles in her life, she comes to consider the idea that individual and group consciousness can influence the material world. Her experiences are offered by the filmmakers as an illustration of the movie's thesis about quantum physics and consciousness. The 2004 cinematic release of the film was followed by a substantially changed, extended DVD version in 2006.
Bleep was conceived and its production funded by William Arntz, who co-directed the film along with Betsy Chasse and Mark Vicente: all of these individuals are students of Ramtha's School of Enlightenment. A moderately low-budget independent production, it was promoted using viral marketing methods and opened in art-house theaters in the western United States, winning several independent film awards before being picked up by a major distributor and eventually grossing over $10 million.
The film has been criticized for misrepresenting science and containing pseudoscience, and has been described as quantum mysticism. info (c)
Scientists who have reviewed What the Bleep Do We Know!? have described distinct assertions made in the film as pseudoscience. Amongst the concepts in the film that have been challenged are assertions that water molecules can be influenced by thought (as popularized by Masaru Emoto), that meditation can reduce violent crime rates, and that quantum physics implies that "consciousness is the ground of all being." The film was also discussed in a letter published in Physics Today that challenges how physics is taught, saying teaching fails to "expose the mysteries physics has encountered and reveal the limits of our understanding." In the letter, the authors write "the movie illustrates the uncertainty principle with a bouncing basketball being in several places at once. There's nothing wrong with that. It's recognized as pedagogical exaggeration. But the movie gradually moves to quantum 'insights' that lead a woman to toss away her antidepressant medication, to the quantum channeling of Ramtha, the 35,000-year-old Atlantis god, and on to even greater nonsense." It went on to say that "Most laypeople cannot tell where the quantum physics ends and the quantum nonsense begins, and many are susceptible to being misguided," and that "a physics student may be unable to convincingly confront unjustified extrapolations of quantum mechanics," a shortcoming which the authors attribute to the current teaching of quantum mechanics, in which "we tacitly deny the mysteries physics has encountered."
Richard Dawkins stated that "the authors seem undecided whether their theme is quantum theory or consciousness. Both are indeed mysterious, and their genuine mystery needs none of the hype with which this film relentlessly and noisily belabours us", concluding that the film is "tosh". Professor Clive Greated wrote that "thinking on neurology and addiction are covered in some detail but, unfortunately, early references in the film to quantum physics are not followed through, leading to a confused message". Despite his caveats, he recommends that people see the movie, stating, "I hope it develops into a cult movie in the UK as it has in the US. Science and engineering are important for our future, and anything that engages the public can only be a good thing." Simon Singh called it pseudoscience and said the suggestion "that if observing water changes its molecular structure, and if we are 90% water, then by observing ourselves we can change at a fundamental level via the laws of quantum physics" was "ridiculous balderdash." According to João Magueijo, professor in theoretical physics at Imperial College, the film deliberately misquotes science. The American Chemical Society's review criticizes the film as a "pseudoscientific docudrama", saying "Among the more outlandish assertions are that people can travel backward in time, and that matter is actually thought."
The film's central theme—that quantum mechanics suggests that a conscious observer can affect physical reality—has also been refuted by Bernie Hobbs, a science writer with ABC Science Online. Hobbs explains, "The observer effect of quantum physics isn't about people or reality. It comes from the Heisenberg Uncertainty Principle, and it's about the limitations of trying to measure the position and momentum of subatomic particles... this only applies to sub-atomic particles - a rock doesn't need you to bump into it to exist. It's there. The sub-atomic particles that make up the atoms that make up the rock are there too." Hobbs also discusses Hagelin's experiment with Transcendental Meditation and the Washington DC rate of violent crime, saying that "the number of murders actually went up." Hobbs also disputed the film's use of the ten percent myth.
David Albert, a physicist who appears in the film, has accused the filmmakers of selectively editing his interview to make it appear that he endorses the film's thesis that quantum mechanics are linked with consciousness. He says he is "profoundly unsympathetic to attempts at linking quantum mechanics with consciousness."
In the film, during a discussion of the influence of experience on perception, Candace Pert notes a story, which she says she believes is true, of Native Americans being unable to see Columbus's ships because they were outside their experience. According to an article in Fortean Times by David Hambling, the origins of this story likely involved the voyages of Captain James Cook, not Columbus, and an account related by historian Robert Hughes which said Cook's ships were "...complex and unfamiliar as to defy the natives' understanding". Hambling says it is likely that both the Hughes account and the story told by Pert were exaggerations of the records left by Captain Cook and the botanist Joseph Banks. Historians believe the Native Americans likely saw the ships but ignored them as posing no immediate danger.

Tuesday, November 17, 2009

dr Stephen William Hawking theoretical physicists black holes

Stephen hawking aliens?
Stephen William Hawking (age 67 now) was born 8 January 1942. He is a British theoretical physicist. He is known for his contributions to the fields of cosmology and quantum gravity, especially in the context of black holes. He has also achieved success with works of popular science in which he discusses his own theories and cosmology in general; these include the runaway best seller A Brief History of Time, which stayed on the British Sunday Times bestsellers list for a record-breaking 237 weeks.
Stephen Hawking A Brief History of Time

Hawking's key scientific works to date have included providing, with Roger Penrose, theorems regarding singularities in the framework of general relativity, and the theoretical prediction that black holes should emit radiation, which is today known as Hawking radiation (or sometimes as Bekenstein-Hawking radiation). He is a world-renowned theoretical physicist whose scientific career spans over 40 years.

photo by nasa hq photo (c) flickr
Hawking was the Lucasian Professor of Mathematics at the University of Cambridge for thirty years, taking up the post in 1979 and retiring on October 1, 2009. He is also a Fellow of Gonville and Caius College, Cambridge and a Distinguished Research Chair at the Perimeter Institute for Theoretical Physics in Waterloo, Ontario.

Hawking has a neuro-muscular dystrophy that is related to amyotrophic lateral sclerosis (ALS), a condition that has progressed over the years and has left him almost completely paralyzed.
His books and public appearances have made him an academic celebrity. He is an Honorary Fellow of the Royal Society of Arts, and a lifetime member of the Pontifical Academy of Science. On August 12, 2009, he was awarded the Presidential Medal of Freedom, the highest civilian award in the United States.
President Barack Obama talks with Stephen Hawking in the Blue Room of the White House before a ceremony presenting him and 15 others the Presidential Medal of Freedom is the nation's highest civilian honor.
Photo (c); Date 12 August 2009; Source The Official White House Photostream; photo by Author White House (Pete Souza) / Maison Blanche (Pete Souza); This image is a work of an employee of the Executive Office of the President of the United States, taken or made during the course of the person's official duties. As a work of the U.S. federal government, the image is in the public domain.
Hawking revealed that he did not see much point in obtaining a doctorate if he were to die soon. Hawking later said that the real turning point was his 1965 marriage to Jane Wilde, a language student. After gaining his Trinity Hall, Stephen became first a Research Fellow, and later on a Professorial Fellow at Gonville and Caius College.

Jane Hawking (née Wilde), Hawking's first wife, cared for him until 1991 when the couple separated, reportedly due to the pressures of fame and his increasing disability. They had three children: Robert (b. 1967), Lucy (b. 1969), and Timothy (b. 1979). Hawking then married his nurse, Elaine Mason (who was previously married to David Mason, the designer of the first version of Hawking's talking computer), in 1995. In October 2006, Hawking filed for divorce from his second wife.

In 1999, Jane Hawking published a memoir, Music to Move the Stars, detailing her own long-term relationship with a family friend whom she later married. Hawking's daughter, Lucy, is a novelist. Their oldest son, Robert, emigrated to the United States, married, and has one child, George Edward Hawking. Reportedly, Hawking and his first family were reconciled in 2007. bio info (c)

Popular books of Stephen Hawking:
A Brief History of Time, (Bantam Press 1988)
Black Holes and Baby Universes and Other Essays, (Bantam Books 1993)
The Universe in a Nutshell, (Bantam Press 2001)
On The Shoulders of Giants. The Great Works of Physics and Astronomy, (Running Press 2002)
A Briefer History of Time, (Bantam Books 2005)

Films and series of dr Stephen Hawking:
A Brief History of Time
Stephen Hawking's Universe
Horizon: The Hawking Paradox
Masters of Science Fiction
Stephen Hawking: Master of the Universe

Children's fiction by dr Stephen Hawking:

These are co-written with his daughter Lucy.

George's Secret Key to the Universe, (Random House, 2007)
George's Cosmic Treasure Hunt, (Simon & Schuster, 2009)

On Hawking's website, he denounces the unauthorised publication of The Theory of Everything and asks consumers to be aware that he was not involved in its creation.

what is a black hole in space universe astronomy galaxies event horizon speed of light

Simulated view of a black hole in front of the Large Magellanic Cloud. The ratio between the black hole Schwarzschild radius and the observer distance to it is 1:9. Of note is the gravitational lensing effect known as an Einstein ring, which produces a set of two fairly bright and large but highly distorted images of the Cloud as compared to its actual angular size.picture of black hole by Alain r (c) from This file is licensed under the Creative Commons Attribution ShareAlike 2.5

In black hole have found out surplus of x-ray radiation
Astrophysicists managed to find out surplus in the high-energy x-ray radiation which is starting with galaxy NGC 1365. Article of scientists is accepted to the publication in magazine The Astrophysical Journal Letters, and its pre-print is accessible on site

Galaxy NGC 1365 settles down on distance about 60 million light years from the Earth in constellation the Furnace. Within the limits of job scientists have carried out the analysis of the data collected by devices Suzaku, Swift and Integral. As a result they managed to find out that in range энергий above 2 kiloelectronvolt, quantity of photons at least on two order above the settlement.

The reasons of occurrence of surplus for scientists while aren't clear, however they have some hypotheses. So they believe that, probably, round hole there is second layer of matter which that intensively absorbs, and it is source of superfluous beams (the hole radiates nothing - for it the matter absorbed by object) answers. Other probable variants are the second black hole in vicinities of the first and unusual geometrical structure of vicinities of object.

More recently scientists managed to explain occurrence of high-energy x-ray photons in space beams. Source of these photons are regions intensive astration. These regions let out streams of the loaded particles which force interstellar gas to let out x-ray radiation.

In general relativity, a black hole is a region of space in which the gravity well is so deep that gravitational time dilation halts time completely forming an event horizon, a one-way surface into which objects can fall, but out of which nothing can come. It is called "black" because it absorbs all the light that hits it, reflecting nothing, just like a perfect black-body in thermodynamics. Quantum analysis of black holes shows them to possess a temperature and Hawking radiation.

Despite its invisible interior, a black hole can reveal its presence through interaction with other matter. A black hole can be inferred by tracking the movement of a group of stars that orbit a region in space which looks empty. Alternatively, one can see gas falling into a relatively small black hole, from a companion star. This gas spirals inward, heating up to very high temperatures and emitting large amounts of radiation that can be detected from earthbound and earth-orbiting telescopes. Such observations have resulted in the scientific consensus that, barring a breakdown in our understanding of nature, black holes exist in our universe.
Event horizon
The defining feature of a black hole is the appearance of an event horizon; a boundary in spacetime beyond which events cannot affect an outside observer. As predicted by general relativity, the presence of a mass deforms spacetime in such a way that the paths particles take tend towards the mass. At the event horizon of a black hole this deformation becomes so strong that there are no more paths that lead away from the black hole. Once a particle is inside the horizon, moving into the hole is as inevitable as moving forward in time (and can actually be thought of as equivalent to doing so).

To a distant observer clocks near a black hole appear to tick more slowly than those further away from the black hole. Due to this effect (known as gravitational time dilation) the distant observer will see an object falling into a black hole slow down as it approaches the event horizon, taking an infinite time to reach it. At the same time all processes on this object slow down causing emitted light to appear redder and dimmer, an effect known as gravitational red shift. Eventually, the falling object becomes so dim that it can no longer be seen, at a point just before it reaches the event horizon.

For a non rotating (static) black hole, the Schwarzschild radius delimits a spherical event horizon. The Schwarzschild radius of an object is proportional to the mass. Rotating black holes have distorted, nonspherical event horizons. Since the event horizon is not a material surface but rather merely a mathematically defined demarcation boundary, nothing prevents matter or radiation from entering a black hole, only from exiting one. The description of black holes given by general relativity is known to be an approximation, and it is expected that quantum gravity effects become significant near the vicinity of the event horizon. This allows observations of matter in the vicinity of a black hole's event horizon to be used to indirectly study general relativity and proposed extensions to it.
Though black holes themselves may not radiate energy, electromagnetic radiation and matter particles may be radiated from just outside the event horizon via Hawking radiation.

info (c)