Table 3.
Open in new tab

Quantities either set or computed in different mass-spring N-body simulations.

|$\tilde{\chi }$||$\dot{a}$|γIσ0τrelaxχPoEI
With a0 = 10, M* = 100, n = 0.318
0.069−3.897e-05200.10.1580.43614.4242.30
0.162−8.505e-0520−0.20.1561.0366.0672.35
0.223−1.055e-0420−0.40.1561.4364.3772.40
0.447−1.800e-0440−0.40.3111.4364.3772.38
0.645−2.309e-0450−0.50.3941.6363.8412.33
0.896−2.517e-0480−0.40.6241.4364.3772.36
1.123−2.288e-04100−0.40.7821.4364.3772.36
1.467−2.325e-04100−0.60.7991.8363.4232.26
With a0 = 20, M* = 200, n = 0.159
0.080−2.239e-0620−0.10.1560.51712.1532.40
0.160−4.540e-0640−0.10.3090.51712.1532.41
0.227−7.124e-0640−0.20.3170.7178.7632.29
0.350−8.601e-0640−0.40.3141.1175.6252.36
0.534−1.157e-0560−0.40.4781.1175.6252.25
0.701−1.324e-0580−0.40.6271.1175.6252.26
0.881−1.656e-05100−0.40.7891.1175.6252.28
1.188−1.372e-05100−0.60.7831.5174.1422.31
1.771−1.197e-05150−0.61.1671.5174.1422.28
|$\tilde{\chi }$||$\dot{a}$|γIσ0τrelaxχPoEI
With a0 = 10, M* = 100, n = 0.318
0.069−3.897e-05200.10.1580.43614.4242.30
0.162−8.505e-0520−0.20.1561.0366.0672.35
0.223−1.055e-0420−0.40.1561.4364.3772.40
0.447−1.800e-0440−0.40.3111.4364.3772.38
0.645−2.309e-0450−0.50.3941.6363.8412.33
0.896−2.517e-0480−0.40.6241.4364.3772.36
1.123−2.288e-04100−0.40.7821.4364.3772.36
1.467−2.325e-04100−0.60.7991.8363.4232.26
With a0 = 20, M* = 200, n = 0.159
0.080−2.239e-0620−0.10.1560.51712.1532.40
0.160−4.540e-0640−0.10.3090.51712.1532.41
0.227−7.124e-0640−0.20.3170.7178.7632.29
0.350−8.601e-0640−0.40.3141.1175.6252.36
0.534−1.157e-0560−0.40.4781.1175.6252.25
0.701−1.324e-0580−0.40.6271.1175.6252.26
0.881−1.656e-05100−0.40.7891.1175.6252.28
1.188−1.372e-05100−0.60.7831.5174.1422.31
1.771−1.197e-05150−0.61.1671.5174.1422.28

Notes. The rightmost column contains the values of the Young's modulus, computed for each simulation by means of the equation (29). The simulations listed here have common parameters listed in Table 1.

Table 3.
Open in new tab

Quantities either set or computed in different mass-spring N-body simulations.

|$\tilde{\chi }$||$\dot{a}$|γIσ0τrelaxχPoEI
With a0 = 10, M* = 100, n = 0.318
0.069−3.897e-05200.10.1580.43614.4242.30
0.162−8.505e-0520−0.20.1561.0366.0672.35
0.223−1.055e-0420−0.40.1561.4364.3772.40
0.447−1.800e-0440−0.40.3111.4364.3772.38
0.645−2.309e-0450−0.50.3941.6363.8412.33
0.896−2.517e-0480−0.40.6241.4364.3772.36
1.123−2.288e-04100−0.40.7821.4364.3772.36
1.467−2.325e-04100−0.60.7991.8363.4232.26
With a0 = 20, M* = 200, n = 0.159
0.080−2.239e-0620−0.10.1560.51712.1532.40
0.160−4.540e-0640−0.10.3090.51712.1532.41
0.227−7.124e-0640−0.20.3170.7178.7632.29
0.350−8.601e-0640−0.40.3141.1175.6252.36
0.534−1.157e-0560−0.40.4781.1175.6252.25
0.701−1.324e-0580−0.40.6271.1175.6252.26
0.881−1.656e-05100−0.40.7891.1175.6252.28
1.188−1.372e-05100−0.60.7831.5174.1422.31
1.771−1.197e-05150−0.61.1671.5174.1422.28
|$\tilde{\chi }$||$\dot{a}$|γIσ0τrelaxχPoEI
With a0 = 10, M* = 100, n = 0.318
0.069−3.897e-05200.10.1580.43614.4242.30
0.162−8.505e-0520−0.20.1561.0366.0672.35
0.223−1.055e-0420−0.40.1561.4364.3772.40
0.447−1.800e-0440−0.40.3111.4364.3772.38
0.645−2.309e-0450−0.50.3941.6363.8412.33
0.896−2.517e-0480−0.40.6241.4364.3772.36
1.123−2.288e-04100−0.40.7821.4364.3772.36
1.467−2.325e-04100−0.60.7991.8363.4232.26
With a0 = 20, M* = 200, n = 0.159
0.080−2.239e-0620−0.10.1560.51712.1532.40
0.160−4.540e-0640−0.10.3090.51712.1532.41
0.227−7.124e-0640−0.20.3170.7178.7632.29
0.350−8.601e-0640−0.40.3141.1175.6252.36
0.534−1.157e-0560−0.40.4781.1175.6252.25
0.701−1.324e-0580−0.40.6271.1175.6252.26
0.881−1.656e-05100−0.40.7891.1175.6252.28
1.188−1.372e-05100−0.60.7831.5174.1422.31
1.771−1.197e-05150−0.61.1671.5174.1422.28

Notes. The rightmost column contains the values of the Young's modulus, computed for each simulation by means of the equation (29). The simulations listed here have common parameters listed in Table 1.

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