Monday, 22 August 2011

Are we descended from Outer Space: Are we Aliens!!

Cosmic Ancestry is a new theory pertaining to evolution and the origin of life on Earth. It holds that life on Earth was seeded from space, and that life's evolution to higher forms depends on genetic programs that come from space. (It accepts the Darwinian account of evolution that does not require new genetic programs.) It is a wholly scientific, testable theory for which evidence is accumulating. 


The first point, which deals with the origin of life on Earth, is known as panspermia — literally, "seeds everywhere." Its earliest recorded advocate was the Greek philosopher Anaxagoras, who influenced Socrates. However, Aristotle's theory of spontaneous generation came to be preferred by science for more than two thousand years. Then on April 9, 1864, French chemist Louis Pasteur reported his experiment disproving spontaneous generation as it was then held to occur. In the 1870s, British physicist Lord Kelvin and German physicist Hermann von Helmholtz reinforced Pasteur and argued that life could come from space. And in the first decade of the 1900s, Swedish chemist and Nobel laureate Svante Arrhenius theorized that bacterial spores, propelled through space by light pressure, were the seeds of life on Earth.

Starting in the 1970s, British astronomers Fred Hoyle and Chandra Wickramasinghe rekindled interest in panspermia. By careful spectroscopic observation and analysis of light from distant stars they found new evidence, traces of life, in the intervening dust. They also proposed that comets, which are largely made of water-ice, carry bacterial life across galaxies and protect it from radiation damage along the way. One aspect of this research program, that interstellar dust and comets contain organic compounds, has been pursued by others as well. It is now widely accepted that space contains the "ingredients" of life. This development could be the first hint of a huge paradigm shift. But mainstream science has not accepted the hard core of modern panspermia, that whole cells seeded life on Earth. 
 




  • 19 May 1995: two scientists at Cal Poly showed that bacteria can survive without any metabolism for at least 25 million years; probably they are immortal.







  • 24 November 1995: The New York Times described bacteria that can survive radiation much stronger than any that Earth has ever experienced.







  • 7 August 1996: NASA announced fossilized evidence of ancient life in meteorite ALH 84001 from Mars.







  • 27 October 1996: geneticists showed evidence that many genes are much older than the fossil record would indicate. Subsequent studies have strengthened this finding.







  • 29 July 1997: a NASA scientist announced evidence of fossilized microscopic life forms in a meteorite not from any known planet.







  • Spring, 1998: a microfossil that was found in a meteorite and photographed in 1966, was recognized by a Russian microbiologist as a magnetotactic bacterium.






  • Fall, 1998: NASA's public position on life-from-space shifted dramatically.






  • 4 January 1999: NASA officially recognized the possibility that life on Earth comes from space.






  • 19 March 1999: NASA scientists announced that two more meteorites hold even stronger fossilized evidence for past life on Mars.






  • 26 April 2000: the German team operating the mass spectrometer on NASA's Stardust mission announced the detection of very large organic molecules in space. Nonbiological sources for organic molecules so large are not known.






  • 19 October 2000, a team of biologists and a geologist announced the revival of bacteria that are 250 million years old, strengthening that case that bacterial spores can be immortal.






  • 13 December 2000: a NASA team demonstrated that the magnetosomes in Mars meteorite ALH 84001 are biological.






  • June 2002: Geneticists reported evidence that the evolutionary step from chimps to humans was assisted by viruses.






  • 2 August 2004: Very convincing photos of fossilized cyanobacteria in a meteorite were reported by a NASA scientist.






  • 25 January 2005: J. Craig Venter endorses panspermia.






  • 10 May 2007: E. O. Wilson endorses panspermia.






  • 18 April 2008: Richard Dawkins endorses panspermia.






  • 7 April 2009: Stephen Hawking endorses panspermia.






  • 2 May 2009: Freeman Dyson speaks favorably about panspermia.






  • Wednesday, 17 August 2011

    Men fall for 'Miss Right' after just a single date

    Men are men. They fall for " Miss Right" after just a single date, says a new study. Researchers have found that men fall in love more easily than women - most males reckon they know whether or not it's "the real thing" after a single date while females wait until at least the sixth date before making their mind up.
    Staggeringly, nearly one in four men said they believed in "love at first sight" and knew whether a girl was "the one" within seconds
    The study also revealed a large percentage of men claim to have loved someone who didn't love them back. Men were also more likely to say "I love you" first and were also more likely than women to pine after their first love.
    Both sexes agreed their first love was the one they took longest to get over and one in four said they didn't think they would ever fully recover from the heartbreak their first love caused them.
    Men were also more likely to regret splitting up with their first girlfriend.
    Women were more likely to be happy with the decisions they have made and more realistic about how happy they were in the first place, the findings revealed. Although women were more likely to try and track their ex-partner down over the internet and keep track on him and who he is dating.