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Exact(3)
where ({boldsymbol {mathrm {f}}}^{(2)}_{text {cs}} ) is a symmetric second order tensorial function of the symmetry angle φ ρ and the Lagrangian multipliers λ1 and λ2 (or their corresponding first two moment functions).
Similar to CDD(1), first we calculate the average line direction l ρ, the symmetry angle φ ρ and the first two moment function M 1) and M 2): begin{array}{*{20}l} {{{boldsymbol{mathrm{l}}}}^{{boldsymbol{rho}}}} &= {boldsymbol{rho}}/|{boldsymbol{rho}}| =,[!{{l}_{1}},{{l}_{2}}]=,[ cos({varphi}_{{boldsymbol{rho}}}),sin({varphi}_{{boldsymbol{rho}}})], end{array} (97).
They referred to the first two moment ratios of the wash out curve as alveolar-based mean dilution numbers AMDN1 and AMDN2.
Similar(57)
We see good agreement of the first two moments.
The first two moments and standard deviation are (16).
The first two moments can be obtained as (33).
In Table 11 we state the first two moments, respectively computed by the three methods.
From the solution we compute the densities and the first two moments and compare the results.
Nevertheless, it is able to compute a good approximation of the first two moments.
It is straightforward to find the first two moments of Xe,i and X e.
If the first two moments are known, then a tighter upper bound can be found.
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Since I tried Ludwig back in 2017, I have been constantly using it in both editing and translation. Ever since, I suggest it to my translators at ProSciEditing.

Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com