%A"Terazawa, Hidezumi" %D1994 %I; Tokyo Univ., Tanashi (Japan). Inst. for Nuclear Study %2 %J[] %K73 NUCLEAR PHYSICS AND RADIATION PHYSICS, DIRAC COSMOLOGY, PARTICLE MODELS, FUNDAMENTAL CONSTANTS, UNIVERSE, COSMOLOGICAL MODELS, HUBBLE EFFECT, 663110, GENERAL AND AVERAGE PROPERTIES OF NUCLEI AND NUCLEAR ENERGY LEVELS %PMedium: X; Size: 10 p. %TThe meaning of Dirac`s large number hypothesis %XDirac`s large number hypothesis (LNH) states that the Eddington large numbers N{sub 1}({identical_to}{alpha}/Gm{sub e}m{sub p}{approx_equal}10{sup 39}), N{sub 2}({identical_to}m{sub e}/{alpha}H{approx_equal}10{sup 40}) and N{sub 3}({identical_to}4{pi}{rho}/3m{sub p}H{sup 3}{approx_equal}10{sup 80}) are not independent but related with each other. By reconsidering the meaning of the LNH, it is shown that not only the `dynamical` LNH relation of N{sub 3}-N{sub 1}N{sub 2} but also the `geometrical` LNH relation of N{sub 3}-(N{sub 2}){sup 2} holds so that the LNH may not be taken as a hypothesis but become the large number rule (LNR). (author). %0Technical Report %NINS-1068;Other: ON: DE95737280; TRN: JP9412188 %1 %CJapan %Rhttps://doi.org/ Other: ON: DE95737280; TRN: JP9412188 JPN %GEnglish