Christianity: A Phenomenological Approach?

Here I investigate the possibility of a phenomenological approach to Christianity, with the understanding that this would not be a matter of proposing an interpretation, but that such an “approach” would be able to lead directly to the heart of Christianity. I will say immediately that a phenomenology that would be able to undertake such a task is not the historical phenomenology that was born with Husserl. Only an ideal phenomenology that would become what is required would be able to respond to our investigation. This ideal phenomenology is a phenomenology of life

Integral Formulation of the Compressible Flowfield in Solid Rocket Motors

In this thesis, a semi-analytical formulation is provided for the rotational, steady, inviscid, compressible motion in a solid rocket motor that is modeled as a slender porous chamber. The analysis overcomes some of the deficiencies encountered in previous work on the subject. The method that we employ consists of reducing the problem’s mass, momentum, energy, ideal gas, and isentropic relations into a single integral equation that can be solved numerically. Furthermore, Saint-Robert’s power law is used to link the pressure to the sidewall mass injection rate. At the outset, results are presented for the axisymmetric and planar porous chambers and compared to two closed-form analytical solutions developed under one-dimensional and two-dimensional, isentropic flow conditions, in addition to experimental data. The comparison is carried out assuming either uniformly distributed mass flux or constant injection speed along the porous wall. Our amended formulation is shown to agree with the one-dimensional solution obtained for the case of uniform wall mass flux and with the asymptotic approximation for the constant wall injection speed

Multidimensional Compressible Framework for Modeling Biglobal Stability in Rocket Motors

Rocket motor stability analysis has historically been focused on two fundamental theories: the acoustic and the hydrodynamic. While the acoustic part examines the system at resonant states, the hydrodynamic component focuses on the fluid-wall interactions and the vortex shedding mechanisms which are responsible for exciting the system. Traditionally, the two concepts are studied independently and their results are then superposed for a more complete solution. In this study, we analyze the problem from a hydrodynamic standpoint and extend it to include compressibility. This is realized by reducing the linearized Navier-Stokes and energy equations to their biglobal form assuming a two-dimensional waveform with a sinusoidal temporal dependence. The suggested approach is found to be comprehensive, capturing both hydrodynamic and acoustic fields simultaneously. Doing so unifies the two phenomena commonly associated with combustion instability while accounting for interactions between resonant and non-resonant eigenmodes. In this work, results are compared and validated using analytical solutions of the vortico-acoustic waves, which incorporate a viscous correction at the wall. Regarding the hydrodynamic component, comparisons to numerical results verify the captured modes. Combined, they present an improved agreement with experimental data for the cold air injection setup. By retaining the influence of the mean flow on the unsteady motion, the technique straightforwardly displays a slight frequency shift from the Helmholtz type acoustic modes, thus confirming the behavior observed in numerous experiments. Moreover, the modal analysis extends over both the longitudinal and transverse modes, thus providing the full spectrum of the system modes related to both acoustics and hydrodynamics. In short, the present work provides physical insight into hydrodynamic-acoustic interactions leading to vortex synchronization and frequency shifting that may be associated with the amplified frequencies captured in live rocket firings. The framework presented here may be viewed as a substantial advancement in the field of biglobal stability, namely, in its ability to capture the full effects of compressibility and shearing simultaneously

Mobiles as Portals for Interacting with Virtual Data Visualizations

We propose a set of techniques leveraging mobile devices as lenses to explore, interact and annotate n-dimensional data visualizations. The democratization of mobile devices, with their arrays of integrated sensors, opens up opportunities to create experiences for anyone to explore and interact with large information spaces anywhere. In this paper, we propose to revisit ideas behind the Chameleon prototype of Fitzmaurice et al. initially envisioned in the 90s for navigation, before spatially-aware devices became mainstream. We also take advantage of other input modalities such as pen and touch to not only navigate the space using the mobile as a lens, but interact and annotate it by adding toolglasses

KAJIAN DASAR RUANG METRIK P-ADIC

Diberikan himpunan semua bilangan rasional Q. Pada penelitian ini akan dijelaskan metrik p-adic untuk suatu bilangan prima p yang dikonstruksikan menggunakan nilai mutlak p-adic pada himpunan Q. Dalam penelitian ini juga akan ditunjukkan bahwa (Q,dp) merupakan ruang metrik khusus yaitu ruang metrik non-Archimedean. Selanjutnya, akan diberikan beberapa sifat (Q,dp) dengan menggunakan beberapa barisan khusus dalam Q. Lebih lanjut, dengan menggunakan sifat-sifat barisan tersebut, akan ditunjukkan bahwa (Q,dp) bukan merupakan ruang metrik lengkap