3,016 research outputs found
Summary of Dissertation Recitals Three Programs of Piano Music
1. First Dissertation Lecture Recital. âThematic Development and Continuity in Sonata No. 1 in F Minor, Op. 6 by Alexander Scriabin.â Tuesday, January 22, 2013 at 8:00 pm in the Moore Building, Britton Recital Hall. The lecture explored how Scriabinâs Sonata No. 1 achieves continuity and unity of thematic development throughout the all the movements by using inter-related motivic ideas, and how his technique of transforming the character of the theme relates to the emotional and spiritual arc of the piece.
2. Second Dissertation Recital. Wednesday, March 20, 2013 in Britton Recital Hall, E. V. Moore Building. The recital program included Beethovenâs Piano Sonata No. 28 in A Major, Op. 101 and Sergei Rachmaninoff âs Piano Sonata No. 1 in D Minor, Op. 28.
3. Third Dissertation Recital. Tuesday, May 14, 2013 in Stamps Auditorium, Walgreen Drama Center. The recital featured Mozartâs Piano Sonata in E-flat Major, K. 282, Beethovenâs Piano Sonata No. 31, in A-flat Major, Op. 110 and Schumannâs Symphonic Etudes, the version of 1852.AMUMusic: PerformanceUniversity of Michigan, Horace H. Rackham School of Graduate Studieshttps://deepblue.lib.umich.edu/bitstream/2027.42/147478/1/jinhwa_1.pd
Comparison of very-large-scale motions of turbulent pipe and boundary layer simulations
A direct numerical simulation of a fully developed turbulent pipe flow was performed to investigate the similarities and differences of very-large-scale motions (VLSMs) to those of turbulent boundary layer (TBL) flows. The Reynolds number was set to ReD = 35 000, and the computational domain was 30 pipe radii in length. Inspection of instantaneous fields, streamwise two-point correlations, and population trends of the momentum regions showed that the streamwise length of the structures in the pipe flow grew continuously beyond the log layer (y/?? 3??), and the maximum length of the VLSMs increased up to ~30??. Such differences between the TBL and pipe flows arose due to the entrainment of large plumes of the intermittent potential flow in the TBL, creating break-down of the streamwise coherence of the structures above the log layer with the strong swirling strength and Reynolds shear stress. The average streamwise length scale of the pipe flow was approximately 1.5-3.0 times larger than that of the TBL through the log and wake regions. The maximum contribution of the structures to the Reynolds shear stress was observed at approximately 6?? in length, whereas that of the TBL was at 1??-2??, indicating a higher contribution of the VLSMs to the Reynolds shear stress in the pipe flow than in the TBL flow.open1
Corporate Social Responsibility in the Apparel Industry: Linkage between consumer responses and the California Transparency in Supply Chains Act
customersâ desire to shop thrift struggle with knowing where to find the best selection of products and thrift stores generally have minimal budgets for advertising (Christiansen & Snepenger, 2005). To aid in these challenges, Christiansen and Snepenger (2005) identified the existence of a âthrift mavenâ as someone who encourages thrift shopping by passing on information of the thrift markets to other individuals. In this study, we explored any âthrift mavensâ among fashion design students and their post purchase word-of-mouth behaviors regarding their thrift items and retailers
Current-Induced Resonant Motion of a Magnetic Vortex Core: Effect of Nonadiabatic Spin Torque
The current-induced resonant excitation of a magnetic vortex core is
investigated by means of analytical and micromagnetic calculations. We find
that the radius and the phase shift of the resonant motion are not correctly
described by the analytical equations because of the dynamic distortion of a
vortex core. In contrast, the initial tilting angle of a vortex core is free
from the distortion and determined by the nonadiabaticity of the spin torque.
It is insensitive to experimentally uncontrollable current-induced in-plane
Oersted field. We propose that a time-resolved imaging of the very initial
trajectory of a core is essential to experimentally estimate the
nonadiabaticity.Comment: 4 pages, 4 figure
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