ng time, all t not all compared ected trino in 1957 but  il 1995, ty-eiger, ort Ruska, ron microscope in 1932 and received ury after t. Since Nobel Prizes are never ay can be asimportant a factor as ingenuity for prizewinners.

    colleague at tent office named Mic e C. P. Snoein“, unaided,  listening to to a surprisingly large extent, t is precisely w he had done.”

    ion, E =mc2, did not appear  came in a brief supplementt folloer. As you andsfor energy, m for mass, and c2for t squared.

    In simplest terms, ion says is t mass and energy have an equivalence.

    ted matter; matter is energy ing to times itself) is a truly enormous number, ion is saying is t t—a really —of energy bound upin every material thing.

    4You may not feel outstandingly robust, but if you are an average-sized adult you ain  frame no less tential energy—enougoexplode y very large oliberate it and really . Everytrapped. e’re just not very good at getting it out. Even a uranium bomb—tenergetic t—releases less t of t couldrelease if only we were more cunning.

    Among mucein’s tion ant streams of  melting a could do it by converting mass to energy extremely efficiently à laE =mc2.) Itexplained ars could burn for billions of years  racing tto.)At a stroke, in a simple formula, Einstein endos and astronomers  t ant and supreme. Notake it. It broug (no pun intended, exactly) tot of our understanding of ture of t incidentally, it alsosolved t clear t it didn’t exist. Einsteingave us a