Table 5: Calculation results for evaporation heat.

Sample Ne 25 0,51 1,63 394 1,64 1,11 0,52 5,5 1790 1757 1,84 1796 0,36 Ne 28 1,32 1,70 164 1,64 1,11 0,59 4,45 1712 1665 2,75 1703 0,52 Ar 84 0,71 2,82 961 2,00 1,99 0,83 11,5 6459 6070 6,02 6272 2,89 Ar 90 1,34 2,90 533 2,00 1,99 0,91 10,5 6307 5895 6,53 6089 3,46 Kr 116 0,74 3,42 1259 2,11 2,37 1,05 16,1 9176 8377 8,71 8816 3,92 Kr 150 6,56 3,87 164 2,11 2,37 1,50 10,0 7886 7220 8,44 7590 3,75 Xe 170 1,34 4,50 1013 2,28 2,91 1,59 18,0 12446 11491 7,67 11830 4,95 Xe 216 9,19 5,10 164 2,28 2,91 2,19 10,0 10642 9740 8,48 10027 5,78 H2 25 3,21 3,10 48,82 1,45 0,77 2,33 1,13 836 831 0,60 833 0,34 H2 32 11,0 4,25 7,88 1,45 0,77 3,48 0,11 419 404 3,58 405 3,44 N2 68 0,29 3,31 1940 2,23 2,54 0,77 11,0 5822 5533 4,96 5742 1,38 N2 90 3,60 3,75 182 2,23 2,54 1,21 6,16 5057 4668 7,69 4832 4,46 O2 90 0,99 2,82 724 2,16 2,17 0,65 10,0 6800 6400 5,88 6583 3,19 O2 100 2,55 2,92 303 2,16 2,17 0,78 7,0 6490 5992 7,67 6163 5,04 F2 95 2,78 2,65 261 2,22 2,30 0,35 10,7 6775 6491 4,19 6636 2,04 Cl2 194 0,08 4,23 19377 2,44 3,66 0,57 34,0 22161 21925 1,06 21346 3,68 CH4 150 10,3 4,44 95,4 2,48 2,33 2,11 5,0 6656 6674 0,27 6087 8,55

(K) is the evaporation temperature, *10−5 (Pa) is the pressure, *105 (m3/mole) is the volume of liquid, *105 (m3/mole) is the volume change in evaporation, *1010 is the radius of atom (molecule), *105 (m3/mole) is the volume occupied by atoms (molecules), *105 (m3/mole) is the free volume of liquid, *103 (J/m2) is the surface tension coefficient, (J/mole) is the experimental value of evaporation heat, (J/mole) is the evaporation heat calculated from reference data on volume and size of atoms (molecules), (J/mole) is the evaporation heat calculated from data on volumes and dimensions of atoms (molecules) obtained in the present paper, and and (%) are relative errors.