Our Mathematical Universe: My Quest for the Ultimate Nature of RealityPublication details: United Kingdom; Penguin Books Ltd; 29 Jan 2015Description: 432 Pages; PaperbackISBN:
|Item type||Current library||Call number||Status||Notes||Date due||Barcode||Item holds|
|Book Adult and Young Adult 15-17||Karachi Science||523.10 (Browse shelf(Opens below))||Available||PKLC007044|
|Book Adult and Young Adult 15-17||Lahore Withdrawn Books||523.10 (Browse shelf(Opens below))||Withdrawn||For Sale||PKLC001922|
In Our Mathematical Universe, Max Tegmark, one of the most original physicists at work today, leads us on an astonishing journey to explore the mysteries uncovered by cosmology and to discover the nature of reality. Part-history of the cosmos, part-intellectual adventure, Our Mathematical Universe travels from the Big Bang to the distant future via parallel worlds, across every possible scale - from the sub-atomic to the intergalactic - showing how mathematics provides the answers to our questions about the world. Where do we come from? What makes the universe the way it is? In essence, why are we here? With dazzling clarity, Max Tegmark ponders these deep mysteries and allows us to grasp the most cutting-edge and mind-boggling theories of physics. What he proposes is an elegant and fascinating idea: that our physical world not only is described by mathematics, but that it is mathematics. "Our Mathematical Universe is nothing if not impressive. Brilliantly argued and beautifully written, it is never less than thought-provoking about the greatest mysteries of our existence". (New York Times). "An amazing ride through the rich landscape of contemporary cosmology...Physics could do with more characters like Tegmark . ..an imaginative intellect and a charismatic presence". (Clive Cookson, Financial Times Max). Tegmark is author or co-author of more than 200 technical papers, twelve of which have been cited more than 500 times. He has featured in dozens of science documentaries, and his work with the SDSS collaboration on galaxy clustering shared the first prize in Science magazine's "Breakthrough of the Year: 2003". He holds a Ph.D from the University of California, Berkeley, and is a physics professor at MIT.