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. 2018 Jan 16;143(3):715–724. doi: 10.1039/c7an01209h

Table 2. Equations to derive three of six experimental parameters from the three chosen by the experimenter. The quantities with an asterisk are asserted by the experimenter. The remaining three quantities arise from those as shown.

  F P a L t s σ t 2
1 * graphic file with name c7an01209h-t7.jpg * * graphic file with name c7an01209h-t8.jpg graphic file with name c7an01209h-t9.jpg
2 * * * graphic file with name c7an01209h-t10.jpg graphic file with name c7an01209h-t11.jpg graphic file with name c7an01209h-t12.jpg
3 * graphic file with name c7an01209h-t13.jpg * graphic file with name c7an01209h-t14.jpg * graphic file with name c7an01209h-t15.jpg
4 * * graphic file with name c7an01209h-t16.jpg graphic file with name c7an01209h-t17.jpg * graphic file with name c7an01209h-t18.jpg
5 a * graphic file with name c7an01209h-t19.jpg graphic file with name c7an01209h-t20.jpg graphic file with name c7an01209h-t21.jpg * *
6 a graphic file with name c7an01209h-t22.jpg * graphic file with name c7an01209h-t23.jpg graphic file with name c7an01209h-t24.jpg * *

aNote that in the last two rows, explicitly showing calculated quantities as a function of the three chosen parameters becomes cumbersome. Thus, when two of the three provided parameters are σt and ts it is most efficient to calculate the radius, a, and then calculate the other parameters as a function of a.