5,099 research outputs found
Bromide and other ions in the snow, firn air, and atmospheric boundary layer at Summit during GSHOX
Measurements of gas phase soluble bromide in the boundary layer and in firn air, and Br− in aerosol and snow, were made at Summit, Greenland (72.5° N, 38.4° W, 3200 m a.s.l.) as part of a larger investigation into the influence of Br chemistry on HOx cycling. The soluble bromide measurements confirm that photochemical activation of Br− in the snow causes release of active Br to the overlying air despite trace concentrations of Br− in the snow (means 15 and 8 nmol Br− kg−1 of snow in 2007 and 2008, respectively). Mixing ratios of soluble bromide above the snow were also found to be very small (mean \u3c1 ppt both years, with maxima of 3 and 4 ppt in 2007 and 2008, respectively), but these levels clearly oxidize and deposit long-lived gaseous elemental mercury and may perturb HOx partitioning. Concentrations of Br− in surface snow tended to increase/decrease in parallel with the specific activities of the aerosol-associated radionuclides 7Be and 210Pb. Earlier work has shown that ventilation of the boundary layer causes simultaneous increases in 7Be and 210Pb at Summit, suggesting there is a pool of Br in the free troposphere above Summit in summer time. Speciation and the source of this free tropospheric Br− are not well constrained, but we suggest it may be linked to extensive regions of active Br chemistry in the Arctic basin which are known to cause ozone and mercury depletion events shortly after polar sunrise. If this hypothesis is correct, it implies persistence of the free troposphere Br− for several months after peak Br activation in March/April. Alternatively, there may be a ubiquitous pool of Br− in the free troposphere, sustained by currently unknown sources and processes
The comparison of two rhythm syllable systems on the meter recognition abilities of second and third grade students
The purpose of this study was to investigate the efficacy of rhythm syllable systems in developing students\u27 aural discrimination abilities. The problem was to examine the effect of rhythm syllable systems on students\u27 abilities to aurally identify the meter of rhythm patterns. A secondary problem was to examine the interaction effects of music aptitude and rhythm syllable systems.
The sample for this study included 107 students in second and third grade general music classes. Classes remained intact and were randomly assigned to the control group, the time-based syllable group, and the function-based syllable group.
Subjects were administered the Intermediate Measures of Music Audiation prior to the start of the treatment period to identify level of music aptitude and a student questionnaire to identify prior rhythmic activity experience. During the treatment period, the students learned the same rhythm patterns: instruction differed only in the type of rhythm syllable system used. The time-based treatment group used Kodaly rhythm syllables, the function-based treatment groups used Gordon syllables, and the control group continued to use a neutral syllable.
At the conclusion of the 14 week treatment period, all subjects were administered a Meter Identification Test in which they were expected to aurally identify patterns as being in duple or triple meter. An ANOVA revealed no significant differences among groups with regard to treatment and no interaction effects between treatment and level of rhythm aptitude. The researcher concluded that there were no differences in abilities of subjects who received rhythm instruction that utilized the function-based syllable system and those who used a time-based syllable system. Furthermore, subjects who used either syllable system failed to demonstrate greater meter identification abilities than students who used no syllable system as part of rhythm instruction
Quantum Mechanics helps in searching for a needle in a haystack
Quantum mechanics can speed up a range of search applications over unsorted
data. For example imagine a phone directory containing N names arranged in
completely random order. To find someone's phone number with a probability of
50%, any classical algorithm (whether deterministic or probabilistic) will need
to access the database a minimum of O(N) times. Quantum mechanical systems can
be in a superposition of states and simultaneously examine multiple names. By
properly adjusting the phases of various operations, successful computations
reinforce each other while others interfere randomly. As a result, the desired
phone number can be obtained in only O(sqrt(N)) accesses to the database.Comment: Postscript, 4 pages. This is a modified version of the STOC paper
(quant-ph/9605043) and is modified to make it more comprehensible to
physicists. It appeared in Phys. Rev. Letters on July 14, 1997. (This paper
was originally put out on quant-ph on June 13, 1997, the present version has
some minor typographical changes
Active primate simulator Final report
Systems engineering data and design specifications for Biosatellite active primate simulato
The Kinematics of the Ionized and Molecular Hydrogen in the Starburst Galaxy NGC 253
Near-infrared H_2 1-0 S(1) and Br_gamma velocity curves along the major axis
of NGC 253 have revealed a central velocity gradient that is seven times
steeper than that shown by the optical velocity curve. This is interpreted as
an optical depth effect due to dust. Approximately 35 mag of visual extinction
in the center is required to match the SW side of the optical velocity curve.
The spatial variation of the ratio of these lines to the CO (J=1-0) line is
compared among starburst galaxies NGC 253, M82, and NGC 4945 to investigate the
excitation mechanism responsible for the H_2 1-0 S(1) line.Comment: Uuencoded postscript file, 10 pages (4 tables included), 8 figures
available on request to [email protected], Ap.J. (in press
Shuttle Operations Era Planning for Flight Operations
The Space Transportation System (STS) provides routine access to space for a wide range of customers in which cargos vary from single payloads on dedicated flights to multiple payloads that share Shuttle resources. This paper describes the flight operations planning process from payload introduction through flight assignment to execution of the payload objectives and the changes that have been introduced to improve that process. Particular attention is given to the factors that influence the amount of preflight preparation necessary to satisfy customer requirements. The partnership between the STS operations team and the customer is described in terms of their functions and responsibilities in the development of a flight plan. A description of the Mission Control Center (MCC) and payload support capabilities completes the overview of Shuttle flight operations
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Observations of the J = 2→1 transitions of <sup>12</sup>C<sup>16</sup>O and <sup>12</sup>C<sup>18</sup>O towards galactic H II regions
Observations are reported of the J = 2→1 transitions of CO and 12C18O at 230 and 219 GHz respectively from a number of galactic sources. A map of the central 1/2° × 1/2° of the Orion A molecular cloud is presented. The spectra are interpreted to derive molecular densities and abundance ratios in the molecular clouds observed
Structure and Star Formation in NGC 925
We present the results from an optical study of the stellar & star formation
properties of NGC 925 using the WIYN 3.5m telescope. Images in B,V,R, & H-alpha
reveal a galaxy that is fraught with asymmetries. From isophote fits we
discover that the bar center is not coincident with the center of the outer
isophotes nor with the dynamical center (from Pisano et al. 1998). Cuts across
the spiral arms reveal that the northern arms are distinctly different from the
southern arm. The southern arm not only appears more coherent, but the peaks in
stellar and H-alpha emission are found to be coincident with those of the HI
distribution, while no such consistency is present in the northern disk. We
also examine the gas surface density criterion for massive star formation in
NGC 925, and find that its behavior is more consistent with that for irregular
galaxies, than with late-type spirals. In particular, star formation persists
beyond the radius at which the gas surface density falls below the predicted
critical value for star formation for late-type spirals. Such properties are
characteristic of Magellanic spirals, but are present at a less dramatic level
in NGC 925, a late-type spiral.Comment: accepted for publication in the August 2000 Astronomical Journal 12
pages, 3 tables, 14 figure
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