Stellar Diffuse X-ray Scattering

Flushing a vacuum-assisted toilet generates noise levels that can be disturbing both to users and those nearby. Peak radiated noise levels correlate with the time when the valve opens and closes, while the noise levels when the valve is com- pletely open are also relatively high. Significant noise ranges between 300 Hz and 3000 Hz. It was hypothesized that increasing the in-tube distance between the flush valve and the bowl in addition to increasing the bend radius of the tube would reduce radiated noise levels. These modifications resulted in a reduction of about 14 dB in the radiated noise during the valve opening and closing in ad- dition to a reduction of about 5 dB while the valve is completely opened. Inter- mediate results of varying the tube length and bend radius are presented to show their effects on the radiated sound levels. Two tube inserts were designed to fit (1) underneath and (2) behind the toilet in a compact manner. They were tested to show that they maintain noise control performance without modifying any other part of the toilet.

Well-quantified directivity patterns of sound sources provide greater insights into their acoustical properties and the potential to simulate the propagation of their sounds in various settings. Moreover, clear descriptions of detailed spherically sampled directivities of highly complex and dynamic sound sources such as musical instruments have broad applications. Because spherical harmonics are a suitable basis set for representing functions on the sphere, this work reviews and compares methods for computing spherical harmonic expansion coefficients. It further presents distinct quadrature methods applicable to the five-degree polar and azimuthal sampling distribution commonly used in directivity measurements, and analysis regarding convergence and accuracy of the expansions. Finally, it presents selected results of spherical harmonic expansions of musical instruments.

 This study investigates the far-field noise from three Falcon 9 vehicle launches from Vandenberg Air Force Base, CA, USA, as measured from the same location within the nearby community of Lompoc. The overall sound pressure levels for the three launches are shown to be similar, but some differences in the early launch period are thought to be weather-related. The peak directivity angle in overall level is approximately 65 deg, which is consistent with horizontally-fired, static rocket data. For the third launch, waveforms and spectra are analyzed for different events during the launch sequence. The measured spectral bandwidth decreases with time, but spectral levels remain above the ambient noise throughout the main-engine firing. Additionally, late-launch phenomena observed in the data appear to be correlated with main-engine cutoff and second-stage engine start.