Sentence examples for modes are predicted from inspiring English sources

Internal resonances and energy transfers between the vibrating modes are predicted and analysed.

Both stable and unstable intrinsic thermoacoustic modes are predicted, depending on details of the configuration.

In this paper, the natural frequencies and shapes of these modes are predicted by using the finite element technique.

Peak loads and failure modes are predicted by determination of upper and lower bound limits computed with two finite element based numerical procedures.

Critical buckling loads and failure modes are predicted by both eigenvalue linear and nonlinear analysis in conjunction with three well-known failure criteria, i.e., Hashin, Tsai-Wu and Tsai-Hill criteria.

While the trans conformers in glycine-like coordination are the most stable in vacuum, conformers in all coordination modes are predicted within 15 kJ mol−1 in aqueous solution.

Blast loads in elastic designs were suggested and potential failure modes were predicted.

Preliminary SARs was established for XZH-5 and its derivatives; and the binding modes were predicted by molecular docking.

The capacity of shear connection, load–slip behaviour of the headed stud, and failure modes were predicted.

Also the initiation of debonding in opening and sliding fracture modes is predicted using the developed formulation.

The column strengths, load-shortening curves as well as failure modes were predicted for the stiffened and unstiffened slender hollow section columns.