239,020 research outputs found
Bell, R R, NX20322
This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/371161Surname: BELL
Given Name(s) or Initials: R R
Military Service Number or Last Known Location: NX20322
Missing, Wounded and Prisoner of War Enquiry Card Index Number: 1212181655
Item: [2016.0049.03488] "Bell, R R, NX20322
Memorandum from Roscoe E. Bell, Chief, Agricultural Division, to Charles Ernst, Director, Topaz, December 31, 1942
Memo from Roscoe E. Bell to Charles Ernst regarding an incident where military police at Topaz harassed and threatened an incarceree with a gun.Personal correspondence, organizational records, government documents, publications, and other papers created or collected by Joseph R. Goodman documenting the forced removal and incarceration of Japanese Americans during World War II, as well as organized resistance to incarceration. Included in the collection are records of the Japanese Young Men's Christian Association and the Japanese American Citizens' League in San Francisco, including papers of the Japanese YMCA's executive secretary Lincoln Kanai; Sakai family papers; Goodman's correspondence to and from Japanese American incarcerees, organizations opposing forced removal and incarceration of Japanese Americans, the War Relocation Authority, and others; publications, photographs, and ephemera from the Topaz Relocation Center, where Goodman taught high school; War Relocation Authority records and publications; and newspaper clippings, pamphlets, and reports about forced removal and incarceration created by various government, religious, and civic organizations, in California and nationwide
Experimental Study of Dual Bell Nozzles
An experimental study was conducted testing Dual-bell nozzles in various conditions at DLR’s cold gas test stand. The stability of the nozzle flow has been verified by measuring the pressure ratio values by flow transition and retransition, to ensure a hysteresis between the two operation modes. The transition duration and the velocity of the transition front in the nozzle extension were calculated using pressure measurement and Schlieren optics to demonstrate the feasibility of the Dual-Bell concept
A stronger Bell argument for quantum non-locality
It is widely accepted that the violation of Bell inequalities excludes local theories of the quantum realm. In this paper I present a stronger Bell argument which even forbids certain non-local theories. The remaining non-local theories, which can violate Bell inequalities, are characterised by the fact that at least one of the outcomes in some sense probabilistically depends both on its distant as well as on its local parameter. While this is not to say that parameter dependence in the usual sense necessarily holds, it shows that the received analysis of quantum non-locality as “outcome dependence or parameter dependence” is deeply misleading about what the violation of Bell inequalities implies
The Altitude Adaptive Dual Bell Nozzle
The dual bell nozzle has been found out to be one of the most promising concepts for alti-tude adaption of the nozzle jet. The wall contour inflection linking the base nozzle with the ex-tension provides two stable operating modes, circumventing the area ratio limitation inherent to conventional main stage engine nozzles. During the past decade, numerous experimental as well as analytical investigations have been conducted at the German Aerospace Center for a better understanding and the qualification of the dual bell concept for main stage engine application. Cold and hot flow tests aimed to point out the influence of the geometrical parameters on the flow behavior. The conditions for the transition from sea level to altitude mode and back, the hysteresis between these values, the duration of the transition and the resulting side load genera-tion were of particular interest. The contour optimization results in a trade-off between the tran-sition duration, stability and side load amplitude, all depending on the extension length. Out of the experimental work, it was possible to define the parameters for realistic dual bell nozzle geometries and to conduct an analytical study of the nozzle behavior during ascent of a parallel staged heavy launcher. The additional loss in sea level, the so-called drag effect, was evaluated for the chosen nozzle using DLR’s CFD in-house code Tau. The present paper gives an over-view on current experimental and analytical dual bell research activities
A biholomorphism from the Bell representative domain onto an annulus and kernel functions
Let Aρ2,1 = { z ∈ [special characters omitted] : ρ2 \u3c :z: \u3c 1} and let Ω r = {z ∈ [special characters omitted] : :z + [special characters omitted]: \u3c r}. It is known that for r \u3e 2, Ω r is a doubly-connected domain with an algebraic Bergman kernel and satisfies a certain quadrature identity. We find an explicit biholomorphism between these two domains, and get the value of ρ as a function of r, which follows from the computation of the biholomorphism. Using the transformation formula for the Bergman kernel, we write out the Bergman kernel of the Bell representative domain Ωr, which was earlier known to be algebraic. We also determine the Ahlfors maps of this generalized quadrature domain using the Ahlfors map of the annulus
R-Bell Numbers for Graphs
The r-Bell number B^r(G) of a simple labeled graph G is the number of partitions
of its vertex set whose blocks are independent sets of G where the first r-vertices
are in different blocks. The number of these partitions with k blocks is the
(graphical) r- Stirling number S^r(G; k) of G. On this particular paper we will
investigate the integer sequence of r-Bell numbers for different kinds of graphs
Robert Bell (Art Forum)
Robert Bell is curator of decorative arts and design at the National Gallery of Australia
Bell, A R, VX5407
This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/371220Surname: BELL
Given Name(s) or Initials: A R
Military Service Number or Last Known Location: VX5407
Missing, Wounded and Prisoner of War Enquiry Card Index Number: 6661181714
Item: [2016.0049.03547] "Bell, A R, VX5407
Bell, R E, 268
This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/371119Surname: BELL
Given Name(s) or Initials: R E
Military Service Number or Last Known Location: 268
Missing, Wounded and Prisoner of War Enquiry Card Index Number: 16101181613
Item: [2016.0049.03446] "Bell, R E, 268
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