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In an interview for the video essay The Making of The Other, Martin Udvarnoky recalls that Mulligan was mostly a nice director on the set, but that he got a little angry during the filming of a (deleted) swimming scene where the boys were struggling to act due to the cold outdoor weather. [5] Mulligan never shows the brothers in frame together.
Some then-accepted physical theories were inconsistent with that framework; a key example was Newton's theory of gravity, which describes the mutual attraction experienced by bodies due to their mass. Several physicists, including Einstein, searched for a theory that would reconcile Newton's law of gravity and special relativity.
(Einstein was formally awarded his PhD on 15 January 1906.) [79] [80] [81] Four other pieces of work that Einstein completed in 1905—his famous papers on the photoelectric effect, Brownian motion, his special theory of relativity and the equivalence of mass and energy—have led to the year being celebrated as an annus mirabilis for physics ...
Other early versions of the book were reviewed by George Yuri Rainich in 1946, [9] as well as Abraham H. Taub, [10] Philip Morrison, [11] and I. M. Levitt [12] in 1950. Reviews for the book's fifth edition include a short announcement in 1955 that called the book "a well-known classic". [ 13 ]
Einstein's scientific publications are listed below in four tables: journal articles, book chapters, books and authorized translations. Each publication is indexed in the first column by its number in the Schilpp bibliography (Albert Einstein: Philosopher–Scientist, pp. 694–730) and by its article number in Einstein's Collected Papers.
[3] [4] Einstein is best known by the general public for his mass–energy equivalence formula E = mc 2 (which has been dubbed "the world's most famous equation"). [5] He received the 1921 Nobel Prize in Physics "for his services to theoretical physics, and especially for his discovery of the law of the photoelectric effect ", a pivotal step in ...
Einstein argued that it takes a certain amount of energy, called the work function and denoted by φ, to remove an electron from the metal. [16] This amount of energy is different for each metal. If the energy of the light quanta is less than the work function, then it does not carry sufficient energy to remove the electron from the metal.
For example, while the early pioneers of the subject, including Einstein himself, employed coordinate-based methods, researchers since the mid-1960s have switched to coordinate-free formulations, of which Wald's text is entirely based. Its style is uniformly clear and economic, if too brief at times.