The Animal in You Personality Test 6 Insane Discoveries That Science Cant Explain We like to feel superior to the people who lived centuries ago, what with their shitty mud huts and curing colds by drilling a hole in their skulls. But we have to give them credit: They left behind some artifacts that have left the smartest of modern scientists scratching their heads. For instance, you have the following enigmas that we believe were created for no other purpose than to fuck with future generations. The Voynich Manuscript The Mystery: The Voynich manuscript is an ancient book that has thwarted all attempts at deciphering its contents. It appears to be a real language--just one that nobody has seen before. Translation: "...and when you get her to put the tennis racket in her mouth, have her stand in a fountain for a while. There is not even a consensus on who wrote it, or even when it was written. Why Can't They Solve It? Could you? Don't even try. As you can imagine, proposed solutions have been all over the board, from reasonable to completely clownshit. Our Guess:
Mythology of Gonds - Wiki From Wiki Bada Dev was sitting on a lotus leaf when the idea of creating the world came to him. He needed clay to create the world. He looked down but all he saw was water. The Orion Zone -- Spiralgate The archetypal motif of the entwined twin snakes is found at differing times in diverse parts of the world. Many Westerners are now familiar with the age-old Tibetan practice of kundalini, a form of Tantric yoga. The word Kundala means "coiled," and refers to the energy of the cosmic serpent asleep at the base of the spine. In addition to the chakras, or energy wheels, positioned along the spinal column (Susumna), two subtle nerves called the Pingala and the Ida form a double spiral that interlaces the backbone, channeling solar (masculine) and lunar (feminine) energy respectively up and down the spine. The chakra system apparently is not restricted to Asia. Sir John Woodroffe (a.k.a. In all the excitement about the human genome mapping project and its potential for medical science, we sometimes forget the ineffable beauty of the DNA double helix, that spiral staircase gently uncoiling itself with a mathematical precision inside every living thing. According to J.E. The Healing Spiral
INDIAN MIRROR - History of games & sports in India In early India, games and sports were very much concerned about the development of the physique and for the art of offence and defence. Also games were considered a kind of recreation, which played a vital role in the development of a man's personality. Important of them included indoor games, music, fishing and boating, singing and dancing, water sports, etc. Fortunately India has a rich heritage of these activities as can be found in the archaeological excavations of Mohenjadaro and Harappa, the Vedic literature, The Ramayana and the Mahabharata, the Puranas, the literary works of Kautilya, Kalidasa, Panini and Dandin as well as a whole lot of Buddhist and Jain literatures. Various archaeological evidences like coins, inscriptions and monumental carvings support them. Indus valley civilization (3250 BC to 2750 BC) A statuette found in the Mohenjadaro Remains is that of a dancer, which points out that the important pastime of the people then was dancing and singing. The Ramayana
HD 142 Planetary system[edit] In 2001, the Anglo-Australian Planet Search team led by Chris Tinney announced the discovery of an extrasolar planet orbiting the star.[10][11] An additional linear trend in the radial velocity data was noticed in 2006[12] that could have been due to another planet or to the stellar companion.[13] In 2012, additional measurements allowed the detection of a second planet. A third possible planet with a period of 108 days was seen in the data however the false alarm probability was five percent.[14] See also[edit] List of extrasolar planets References[edit] External links[edit] "HD 142". Coordinates:
Radial velocity Diagram showing how an exoplanet orbiting a star produces changes in position and velocity of the star as they orbit their common center of mass (which is here the reference point) Radial velocity is the velocity of an object in the direction of the radius (i.e. the line of sight between the two objects). In other words, it is its speed straight towards or away from another object. In astronomy, radial velocity most commonly refers to the spectroscopic radial velocity. The spectroscopic radial velocity is the radial component of the velocity of the source at emission and the observer at observation, as determined by spectroscopy. Spectroscopic radial velocity[edit] Light from an object with a substantial relative radial velocity at emission will be subject to the Doppler effect, so the frequency of the light decreases for objects that were receding (redshift) and increases for objects that were approaching (blueshift). Detection of Exoplanets by Doppler spectroscopy[edit] See also[edit]
Stick Up: Antimatter Atoms Trapped for More Than 15 Minutes Maybe antimatter is finally ready for its close-up. A team of physicists has succeeded in producing rudimentary atoms of antimatter and holding on to them for several minutes, an advance that holds hope for detailed comparisons of how ordinary atoms of matter compare with their exotic antimatter counterparts. The researchers, from the ALPHA antimatter experiment at CERN, the European laboratory for particle physics, reported last year the first trapping of antihydrogen, the simplest antimatter atom. But the antihydrogen had at that time been confined for less than two tenths of a second. That interval has now been extended by a factor of more than 5,000. The subatomic particles of everyday matter—protons, neutrons and electrons—have antimatter cousins; when matter meets antimatter the two annihilate in a burst of energy. Cagey as anti-atoms are, physicists would like to pin them down and compare the properties of antihydrogen with hydrogen, the most abundant element in the universe.
Dmitri Mendeleev Dmitri Ivanovich Mendeleev[1] (Russian: Дми́трий Ива́нович Менделе́ев, IPA: [ˈdmʲitrʲɪj ɪˈvanəvʲɪt͡ɕ mʲɪndʲɪˈlʲejɪf] ( ); 8 February 1834 – 2 February 1907 O.S. 27 January 1834 – 20 January 1907) was a Russian chemist and inventor. He formulated the Periodic Law, created his own version of the periodic table of elements, and used it to correct the properties of some already discovered elements and also to predict the properties of elements yet to be discovered. Early life Mendeleev was born in the village of Verkhnie Aremzyani, near Tobolsk in Siberia, to Ivan Pavlovich Mendeleev and Maria Dmitrievna Mendeleeva (née Kornilieva). In 1849, his mother took Mendeleev across the entire state of Russia from Siberia to Moscow with the aim of getting Mendeleev a higher education. Later life Dmitri Mendeleev Between 1859 and 1861, he worked on the capillarity of liquids and the workings of the spectroscope in Heidelberg. In 1893, he was appointed Director of the Bureau of Weights and Measures.