** All data are
theoretical values obtained by HUAWEI internal laboratories through tests carried out under specific conditions.
* The data is
a theoretical value obtained by HUAWEI internal laboratories through tests carried out under specific conditions.
Not exact matches
This imploding shock wave can compress the interior of the bubble's contents even more; indeed, William C. Moss and his colleagues at Lawrence Livermore National Laboratory have
obtained theoretical estimates of the temperatures achievable with an imploding shock wave, and these
values approach those required for nuclear fusion.
This calculation method enabled us to more accurately perform
theoretical prediction of IMFP compared to the experimental
value, which was
obtained by applying spectrometry (extended X ‐ ray absorption fine structure spectrometry) to low - speed electrons of Copper and molybdenum at the high - brilliant synchrotron radiation facility, and to explain the relationship between energy measurement and the types of materials.
Before computing the subscale scores (sum across nine items;
theoretical range 9 — 54), missing
values (one to eight missing item responses for 7 participants) were substituted by this participant's scale mean based on the nonmissing items to
obtain sum scores.