A time domain prediction of wave-induced ship motions by a Rankine panel method is investigated. Linear boundary conditions on free surface and mean wetted body surface are adopted, while the numerical damping method ...A time domain prediction of wave-induced ship motions by a Rankine panel method is investigated. Linear boundary conditions on free surface and mean wetted body surface are adopted, while the numerical damping method is used for the radiation conditions. The motions of two ships in regular head waves are computed by the present method. The related numerical results are compared with the experiment data and those from linear strip theory. The comparison shows satisfactory agreements for pitch and heave transfer functions.展开更多
Ⅰ. INTRODUCTION The region in which ferroelectries exist with the perovskite type structure is presented in Ref. [1] of this paper in a 2-dimensional parameter space of Δx and (z/r_k)_A/
A physical model of ke V electron scattering in multi-layer medium and a Monte Carlo simulation method proposed by the authors have been successfully applied to theoretical calculation on the emission of backscattered...A physical model of ke V electron scattering in multi-layer medium and a Monte Carlo simulation method proposed by the authors have been successfully applied to theoretical calculation on the emission of backscattered electron, X-ray quantitative analysis in multi-layer films and the energy deposition of electron beam exposure.The model is based on the 'equal number of steps and variational step length' con-cept. In the model, when an electron comes from one medium into another, the scattering number of the electron in the 'new' medium is considered as N-n,展开更多
文摘A time domain prediction of wave-induced ship motions by a Rankine panel method is investigated. Linear boundary conditions on free surface and mean wetted body surface are adopted, while the numerical damping method is used for the radiation conditions. The motions of two ships in regular head waves are computed by the present method. The related numerical results are compared with the experiment data and those from linear strip theory. The comparison shows satisfactory agreements for pitch and heave transfer functions.
文摘Ⅰ. INTRODUCTION The region in which ferroelectries exist with the perovskite type structure is presented in Ref. [1] of this paper in a 2-dimensional parameter space of Δx and (z/r_k)_A/
基金Project supported by the National Natural Science Foundation of China
文摘A physical model of ke V electron scattering in multi-layer medium and a Monte Carlo simulation method proposed by the authors have been successfully applied to theoretical calculation on the emission of backscattered electron, X-ray quantitative analysis in multi-layer films and the energy deposition of electron beam exposure.The model is based on the 'equal number of steps and variational step length' con-cept. In the model, when an electron comes from one medium into another, the scattering number of the electron in the 'new' medium is considered as N-n,