Mehr zum Buch
The international bestseller: an introduction to the theory of relativity by the eminent physicists Brian Cox and Jeff Forshaw What does E=mc2 actually mean? Dr. Brian Cox and Professor Jeff Forshaw go on a journey to the frontier of twenty-first century science to unpack Einstein's famous equation. Explaining and simplifying notions of energy, mass, and light-while exploding commonly held misconceptions-they demonstrate how the structure of nature itself is contained within this equation. Along the way, we visit the site of one of the largest scientific experiments ever conducted: the now-famous Large Hadron Collider, a gigantic particle accelerator capable of re-creating conditions that existed fractions of a second after the Big Bang.A collaboration between one of the youngest professors in the United Kingdom and a distinguished popular physicist, Why Does E=mc2? is one of the most exciting and accessible explanations of the theory of relativity.
Buchkauf
Why does E=mc², J. R. Jeffrey Robert Forshaw, Brian Cox
- Sprache
- Erscheinungsdatum
- 2009
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- (Paperback)
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- Titel
- Why does E=mc²
- Sprache
- Englisch
- Autor*innen
- J. R. Jeffrey Robert Forshaw, Brian Cox
- Verlag
- Da Capo Press
- Erscheinungsdatum
- 2009
- Einband
- Paperback
- ISBN10
- 0306819112
- ISBN13
- 9780306819117
- Reihe
- Schlagwörter
- Sachbücher, Wissenschaft & Mathematik, Naturwissenschaften, Wissenschaft, Mathematik, Physik, Weltraum, Astronomie, Energie, Experimente (Wissenschaft), Astrophysik, Albert Einstein, Metaphern, Materie, Isaac Newton
- Bewertung
- 4,05 von 5 Sternen
- Beschreibung
- The international bestseller: an introduction to the theory of relativity by the eminent physicists Brian Cox and Jeff Forshaw What does E=mc2 actually mean? Dr. Brian Cox and Professor Jeff Forshaw go on a journey to the frontier of twenty-first century science to unpack Einstein's famous equation. Explaining and simplifying notions of energy, mass, and light-while exploding commonly held misconceptions-they demonstrate how the structure of nature itself is contained within this equation. Along the way, we visit the site of one of the largest scientific experiments ever conducted: the now-famous Large Hadron Collider, a gigantic particle accelerator capable of re-creating conditions that existed fractions of a second after the Big Bang.A collaboration between one of the youngest professors in the United Kingdom and a distinguished popular physicist, Why Does E=mc2? is one of the most exciting and accessible explanations of the theory of relativity.