?????? TGC ?????? ???????????
... E = mc2. The idea here is that the relativistic energy of an object of rest mass m > 0 is as follows, making it clear that at speed v = 0, the energy should ...
??????? - ????????F(E)?DK(E)?0.8/2E????????????????KERMA?????. ?????? RADHEAT-V4 (????) ?NJOY (????) ?????DK ? ASTM E722- ... 28 Si Displacement KERMA???? RADHEAT-V4?NJOY??? ...?????????????????????1??????????????????4?3??. ?E?mc2?4e2?r?????????r??????E???????????m????. ?????????????? ???? ?? 1????????? ...???????????????????????????????????????????????. ???????????????????????????????? ... ????????????? - ?????????????????????????????????. ??????????????????????????????. ????????????? ... ????????? III - HEP TsukubaE = mc2. (2.20). ???S(x)?????????????????t. ij ... Vjn(td)e?. i. ?. En(td?tc). j. ] (8.26). ?????mn????? ... ???? II??????m ??????????E? ?????c ????? ???????????. E=mc2. ?????? ???? ?????????????? ??????? ... ?????? - ????????????mc2?: erg? g cm2 s-2=10-7J ?g=erg cm-2 s2?. ??2???? ... e e. 2:1. :0. ?. + ??. SNR W44 (Abdo+ 2010). ?????30%????????? ... ????????????????????r?????? ???? ...?E = mc2????????????????. ? ???????????? ... Td= Cd(Rnlj|r|RLJ). Semidirect (Collective) Capture. ? Excite ... ??????Planck???????????Einstein ?????? E = mc2 ???, ?? m ??. ???? E ??????, ????????? h ??????????. ????????????????? ???????? ?????????????????????: E=mc2. ?c=(????)=3.0×108m/s). ???? : 1ev = 1.78×10-36kg. ?????? 5.11×105eV = 9.1×10-31kg ??? 1eV ... ?3? ???????????t d t t ? ? ? ?. ?. -?. = = ? x x x. (3.13). ????? ... ???????????????????????? ... ???E-mc2 ?. 2. 2m p. ????????? ????????????????????????????????????? ?????????????????????????????????????. ?? ... E=mc2 ?
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