5,921 research outputs found
Senator Henry M. Jackson talking with others at the Industrial College of the Armed Forces graduation ceremony reception, Fort Lesley J. McNair, Washington, D.C., June 10, 1969
Typewritten on verso: 10 June 1969. (left to right) The Honorable Henry M. Jackson, U.S. Senator, State of Washington, Lieutenant General John S. Hardy, USAF, Commandant, ICAF, and Vice Admiral R.E. Rose, USN, at Fort McNair's Officer's Club, following Graduation ceremony held at the Industrial College of the Armed Forces. ICAF Photo by: Mr. C.M. Crawford, Fort Lesley J. McNair
Jackson, Eudora Victoria
C.M. Jackson - husbandhttps://stars.library.ucf.edu/cfm-ch-register-vol26/1575/thumbnail.jp
Recommended from our members
Letter to C.M. Yonge from H.B. Stenzel on 1963-10-03
Jackson School of Geoscience
Recommended from our members
Letter to H.B. Stenzel from C.M. Yonge on 1964-03-01
Jackson School of Geoscience
Recommended from our members
Letter to H.B. Stenzel from C.M. Yonge on 1963-10-22
Jackson School of Geoscience
Correspondence to Mary Ann Smith From William H. Borders and C.M. Lowe, March 22, 1961
Correspondence from William H. Borders and C.M. Lowe to Mary Ann Smith notifying her of a meeting for the Atlanta Student Adult Liaison. 1 page
Hydrodynamische stabiliteitsbeschouwing van gefluïdiseerde bedden: Een vergelijking van literatuur
In deze scriptie wordt een poging ondernomen de heden ten dage gevolgde weg ter bepaling van de stabiliteit van een gefluïdiseerd bed te achterhalen en inzichtelijk te maken. Bij deze beschouwing is gebruik gemaakt van een klassiek mechanisch model, geopperd door Anderson en Jackson (1967, 1968). Verder zijn er nog enige andere alternatieven aangekaart om tot een vergelijk te komen. Het uiteindelijk meest positieve model is dat van Anderson en Jackson, ondanks de tekortkomingen door de empirische aanvullingen aan de theoretische continuïteits- en bewegingsvergelijkingen.Applied SciencesChemische Procestechnologi
Three-component velocity measurements in a momentum-conserving, axisymmetric, turbulent jet
Experiments have been performed on a momentum conserving axisymmetric turbulent jet, the turbulence characteristics of which are well known [1]. Simultaneous three-component velocity measurements are acquired with high spatial and temporal resolution, using a new triple-sensor hotwire probe. Velocity and directional calibrations are performed using a dedicated automatic calibration system. Two experiments are performed; one for capturing the average velocity field in a 3D volume, and one for investigating the turbulence spectra in specific points in space. In the first experiment, measurements are performed in 9 equidistant cross-planes, from 10- to 50-diameters downstream of the nozzle using a computer-controlled traversing system. The spatial resolution is as low as 1 mm and the sampling rate was 10 kHz. In the second experiment, long velocity time histories are acquired with 50 kHz sampling rate to perform power spectral density computations for each velocity component. Preliminary results of velocity capture confirm the general characteristics of the turbulent jet. The power spectra at different positions indicate that the turbulent fluctuations are not isotropic at lower frequencies
A General History of the Congregation of the Mission Beginning after the Death of Blessed Vincent de Paul
This work is the earliest known history of the Congregation of the Mission and dates from about 1730. Vincentian historian John E. Rybolt, C.M., building on the initiative of Stafford Poole, C.M., completed this English translation from the original French. The author, Claude-Joseph Lacour, C.M. (1672-1731), drew from already published materials and his own recollections. While the story he tells may seem familiar, Lacour included materials that are unknown anywhere else and delivers a first-hand account of the Congregation’s rapid growth in those early days. The text is essential reading for anyone wishing to better understand Vincent de Paul’s society of apostolic life of priests and brothers following his death.https://via.library.depaul.edu/vincentian_ebooks/1044/thumbnail.jp
Turbulent separation in lower curved wall channels
Turbulent boundary layer separation in channels with a lower curved wall is studied using direct numerical simulations (DNS). Turbulence dynamics are studied through classical statistical tools such as the turbulent kinetic energy budget for varying lower curved wall dimensions. The geometry features are expected to have a significant effect on the fluid flow structures and the characteristic scales of separation. The separation bubble behind the bump is studied in terms of its size, turbulent kinetic energy production mechanisms and transfer and scale-by-scale energy budget. New innovative data-analysis techniques will be used based on the generalisation of the Kolmogorov equation to anisotropic and spatially non-homogeneous flow configurations
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