923 research outputs found
Music Education for Students with Disabilities: A Guide for Teachers, Parents, and Students
The purpose of this paper is to provide some ideas, resources, and support for accommodating students with disabilities in music classes, including performing ensembles. First, we provide an overview of special education in America with a particular emphasis on music education. Next, we describe current inclusion practices that are used within the music classroom. Finally, we provide information for three groups of people involved in the music education of learners with special needs: learners, parents, and music teachers. It is hoped that this resource will be useful in making it possible to include students of all types in American music education programs.
Music teachers may struggle to accommodate learners who have poor motor skill control or underdeveloped social skills. In a music classroom, teachers can select appropriate music, modify student parts, or alter performance tasks so that all students are successful at some level. In such cases, audiences are unable to tell whether a student is performing an altered part so each student can contribute at their own level. Inclusive classrooms also allow for social development for students with disabilities, because they are surrounded by a diversity of students and have more opportunities to make friends. Unlike in core subjects or other disciplines where students work alone, the music classroom is a place for collaboration, which means that students have to work together and accept each other. This can help students with social disabilities expand and improve their social skills. The core ideas of this resource coincide with the need to accommodate all students in the classroom and to advocate for the inclusion of students with disabilities
Are Particles in Advection-Dominated Accretion Flows Thermal?
We investigate the form of the momentum distribution function for protons and
electrons in an advection-dominated accretion flow (ADAF). We show that for all
accretion rates, Coulomb collisions are too inefficient to thermalize the
protons. The proton distribution function is therefore determined by the
viscous heating mechanism, which is unknown. The electrons, however, can
exchange energy quite efficiently through Coulomb collisions and the emission
and absorption of synchrotron photons. We find that for accretion rates greater
than \sim 10^{-3} of the Eddington accretion rate, the electrons have a thermal
distribution throughout the accretion flow. For lower accretion rates, the
electron distribution function is determined by the electron's source of
heating, which is primarily adiabatic compression. Using the principle of
adiabatic invariance, we show that an adiabatically compressed collisionless
gas maintains a thermal distribution until the particle energies become
relativistic. We derive a new, non-thermal, distribution function which arises
for relativistic energies and provide analytic formulae for the synchrotron
radiation from this distribution. Finally, we discuss its implications for the
emission spectra from ADAFs.Comment: 29 pages (Latex), 3 Figures. Submitted to Ap
Gamma-ray Emission From Advection-Dominated Accretion Flows Around Black Holes: Application to the Galactic Center
We calculate the flux and spectrum of \gamma-rays emitted by a
two-temperature advection-dominated accretion flow (ADAF) around a black hole.
The \gamma-rays are from the decay of neutral pions produced through
proton-proton collisions. We discuss both thermal and power-law distributions
of proton energies and show that the \gamma-ray spectra in the two cases are
very different. We apply the calculations to the \gamma-ray source, 2EG
J1746-2852, detected by EGRET from the direction of the Galactic Center. We
show that the flux and spectrum of this source are consistent with emission
from an ADAF around the supermassive accreting black hole Sgr A^* if the proton
distribution is a power-law. The model uses accretion parameters within the
range made likely by other considerations. If this model is correct, it
provides evidence for the presence of a two temperature plasma in Sgr A^*, and
predicts \gamma-ray fluxes from other accreting black holes which could be
observed with more sensitive detectors.Comment: 19 pages (Latex), 4 Figures. ApJ 486. Revised Tables and Figure
A VLA Search for the Geminga Pulsar: A Bayesian Limit on a Scintillating Source
We derive an upper limit of 3 mJy (95% confidence) for the flux density at
317 MHz of the Geminga pulsar (J0633+1746). Our results are based on 7 hours of
fast-sampled VLA data, which we averaged synchronously with the pulse period
using a period model based on CGRO/EGRET gamma-ray data. Our limit accounts for
the fact that this pulsar is most likely subject to interstellar scintillations
on a timescale much shorter than our observing span. Our Bayesian method is
quite general and can be applied to calculate the fluxes of other scintillated
sources. We also present a Bayesian technique for calculating the flux in a
pulsed signal of unknown width and phase.
Comparing our upper limit of 3 mJy with the quoted flux density of Geminga at
102 MHz, we calculate a lower limit to its spectral index of 2.7. We discuss
some possible reasons for Geminga's weakness at radio wavelengths, and the
likelihood that many of the unidentified EGRET sources are also radio-quiet or
radio-weak Geminga-like pulsars.Comment: 27 pages, including figures. Published in Ap
High-current interruption in vacuum circuit breakers
The aim of this project was to find a correlation between contact gap length and switching behavior of a vacuum circuit breaker. A large number of interruption experiments were executed in a vacuum chamber with butt type contacts made of Cu, CuCr 50/50 and AgWC. The currents to be interrupted varied from 2.5 to 32 kA. The rate of change of current and recovery voltage were kept at a fixed value at current zero. Many re-ignitions of the dielectric type, scattered over a wide range of re-ignition voltages, were observed and only a few of the thermal type. The total amount of energy dissipated in the vacuum chamber appears to be determinative for the type of re-ignition. On Cu severe anode spot melting was found, whereas CuCr and AgWC suffered little anode melting. The wide range of re-ignition voltage values found shows that a straight correlation with the contact gap length can not be defined. At 5 to 10 ”s after current zero a `second' post arc current did appea
Discovery of a Hard X-Ray Source, SAX J0635+0533, in the Error Box of the Gamma-Ray Source 2EG 0635+0521
We have discovered an x-ray source, SAX J0635+0533, with a hard spectrum
within the error box of the GeV gamma-ray source in Monoceros, 2EG J0635+0521.
The unabsorbed x-ray flux is 1.2*10^-11 erg cm^-2 s^-1 in the 2-10 keV band.
The x-ray spectrum is consistent with a simple powerlaw model with absorption.
The photon index is 1.50 +/- 0.08 and we detect emission out to 40 keV. Optical
observations identify a counterpart with a V-magnitude of 12.8. The counterpart
has broad emission lines and the colors of an early B type star. If the
identification of the x-ray/optical source with the gamma-ray source is
correct, then the source would be a gamma-ray emitting x-ray binary.Comment: Accepted to the Astrophysical Journal, 8 page
High-Energy Gamma-Ray Observations of Two Young, Energetic Radio Pulsars
We present results of Compton Gamma-Ray Observatory EGRET observations of the
unidentified high-energy gamma-ray sources 2EG J1049-5847 (GEV J1047-5840, 3EG
J1048-5840) and 2EG J1103-6106 (3EG J1102-6103). These sources are spatially
coincident with the young, energetic radio pulsars PSRs B1046-58 and
J1105-6107, respectively. We find evidence for an association between PSR
B1046-58 and 2EG J1049-5847. The gamma-ray pulse profile, obtained by folding
time-tagged photons having energies above 400 MeV using contemporaneous radio
ephemerides, has probability of arising by chance of 1.2E-4 according to the
binning-independent H-test. A spatial analysis of the on-pulse photons reveals
a point source of equivalent significance 10.2 sigma. Off-pulse, the
significance drops to 5.8 sigma. Archival ASCA data show that the only hard
X-ray point source in the 95% confidence error box of the gamma-ray source is
spatially coincident with the pulsar within the 1' uncertainty (Pivovaroff,
Kaspi & Gotthelf 1999). The double peaked gamma-ray pulse morphology and
leading radio pulse are similar to those seen for other gamma-ray pulsars and
are well-explained in models in which the gamma-ray emission is produced in
charge-depleted gaps in the outer magnetosphere. The inferred pulsed gamma-ray
flux above 400 MeV, (2.5 +/- 0.6) x 10E-10 erg/cm^2/s, represents 0.011 +/-
0.003 of the pulsar's spin-down luminosity, for a distance of 3 kpc and 1 sr
beaming. For PSR J1105-6107, light curves obtained by folding EGRET photons
using contemporaneous radio ephemerides show no significant features. We
conclude that this pulsar converts less than 0.014 of its spin-down luminosity
into E > 100 MeV gamma-rays beaming in our direction (99% confidence), assuming
a distance of 7 kpc, 1 sr beaming and a duty cycle of 0.5.Comment: Accepted for publication in the Astrophysical Journa
Radiation-Induced Leiomyosarcoma after Breast Cancer Treatment and TRAM Flap Reconstruction
The development of a radiation-induced sarcoma (RIS) in the post mastectomy thoracic treatment volume is an infrequent, but recognized, event. Its frequency is rising in relation with increasing survival of breast cancer patients treated with adjuvant radiation therapy, and is associated with poor prognosis despite treatment.
We present a case of leiomyosarcoma in a patient who underwent mastectomy followed by radiotherapy for invasive ductal carcinoma. A delayed TRAM flap reconstruction was performed 10 years after and a rapid growing mass under the reconstructed flap appeared, on routine follow-up, twenty years later. This report analyzes the diagnostic and therapeutic approach of patients with RIS
Detection of 33.8 ms X-ray pulsations in SAX J0635+0533
We revisited the BeppoSAX observation of SAX J0635+0533, suggested as a
possible counterpart to the gamma-ray source
2EG J0635+0521. We have discovered a 33.8 ms pulsation from the source and
derived an improved position, consistent with the location of the Be star
proposed as a binary companion.
We interpret the periodicity as the spin period of a neutron star in a binary
system with a Be companion.Comment: 13 pages, LaTeX, 5 PS figures, requires aasms4,apjfonts,psfig styles,
accepted for publication on ApJ Letter
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