15,473 research outputs found
A Review and Meta-Analysis of Age-Based Stereotype Threat: Negative Stereotypes, Not Facts, Do the Damage.
Stereotype threat effects arise when an individual feels at risk of confirming a negative stereotype about their group and consequently underperforms on stereotype relevant tasks (Steele, 2010). Among older people, underperformance across cognitive and physical tasks is hypothesized to result from age-based stereotype threat (ABST) because of negative age-stereotypes regarding older adults’ competence. The present review and meta-analyses examine 22 published and 10 unpublished articles, including 82 effect sizes (N = 3882) investigating ABST on older people’s (Mage = 69.5) performance. The analysis revealed a significant small-to-medium effect of ABST (d = .28) and important moderators of the effect size. Specifically, older adults are more vulnerable to ABST when (a) stereotype-based rather than fact-based manipulations are used (d = .52); (b) when performance is tested using cognitive measures (d = .36); and (c) occurs reliably when the dependent variable is measured proximally to the manipulation. The review raises important theoretical and methodological issues, and areas for future research. (PsycINFO Database Record (c) 2015 APA, all rights reserved
Empirical Determinations of Key Physical Parameters Related to Classical Double Radio Sources
Multi-frequency radio observations of the radio bridge of powerful classical
double radio sources can be used to determine: the beam power of the jets
emanating from the AGN; the total time the source will actively produce jets
that power large-scale radio emission; the thermal pressure of the medium in
the vicinity of the radio source; and the total mass, including dark matter, of
the galaxy or cluster of galaxies traced by the ambient gas that surrounds the
radio source. The theoretical constructs that allow a determination of each of
these quantities using radio observations are presented and discussed.
Empirical determinations of each of these quantities are obtained and analyzed.
A sample of 14 radio galaxies and 8 radio loud quasars with redshifts between
zero and two for which there is enough radio information to be able to
determine the physical parameters listed above was studied in detail.
(abridged)Comment: Submitted to ApJ, LaTex, 26 total pages of text which includes
captions & two tables, plus 13 EPS figures & 1 tabl
Reconciling transport models across scales: the role of volume exclusion
Diffusive transport is a universal phenomenon, throughout both biological and
physical sciences, and models of diffusion are routinely used to interrogate
diffusion-driven processes. However, most models neglect to take into account
the role of volume exclusion, which can significantly alter diffusive
transport, particularly within biological systems where the diffusing particles
might occupy a significant fraction of the available space. In this work we use
a random walk approach to provide a means to reconcile models that incorporate
crowding effects on different spatial scales. Our work demonstrates that
coarse-grained models incorporating simplified descriptions of excluded volume
can be used in many circumstances, but that care must be taken in pushing the
coarse-graining process too far
The Mass-Metallicity Relation for Giant Planets
Exoplanet discoveries of recent years have provided a great deal of new data
for studying the bulk compositions of giant planets. Here we identify 47
transiting giant planets () whose stellar
insolation is low enough (, or roughly ) that they are not affected
by the hot Jupiter radius inflation mechanism(s). We compute a set of new
thermal and structural evolution models and use these models in comparison with
properties of the 47 transiting planets (mass, radius, age) to determine their
heavy element masses. A clear correlation emerges between the planetary heavy
element mass and the total planet mass, approximately of the form . This finding is consistent with the core accretion model of
planet formation. We also study how stellar metallicity [Fe/H] affects
planetary metal-enrichment and find a weaker correlation than has been
previously reported from studies with smaller sample sizes. We confirm a strong
relationship between the planetary metal-enrichment relative to the parent star
and the planetary mass, but see no relation in
with planet orbital properties or stellar mass.
The large heavy element masses of many planets ( ) suggest
significant amounts of heavy elements in H/He envelopes, rather than cores,
such that metal-enriched giant planet atmospheres should be the rule. We also
discuss a model of core-accretion planet formation in a one-dimensional disk
and show that it agrees well with our derived relation between mass and .Comment: Accepted to The Astrophysical Journal. This revision adds a
substantial amount of discussion; the results are the sam
Tidal interactions at the edge of the Local Group: New evidence for tidal features in the Antlia Dwarf Galaxy
Using deep B band imaging down to mu_{B} = 26 mag arcsec^{-2}, we present
evidence for tidal tails in the Antlia Dwarf galaxy, one of the most distant
members of the Local Group. This elongation is in the direction of Antlia's
nearest neighbor, the Magellanic-type NGC 3109. The tail is offset by less than
10 degrees from a vector linking the centers of the two galaxies, indicative of
interactions between the pair. Combined with the warped disc previously
identified in NGC 3109, Antlia and NGC 3109 must be at a small separation for
tidal features to be present in Antlia. We calculate that Antlia cannot be
completely disrupted by NGC 3109 in a single interaction unless its orbit
pericenter is less than 6 kpc, however multiple interactions could
significantly alter its morphology. Therefore despite being located right at
the edge of the Local Group, environmental effects are playing an important
role in Antlia's evolution.Comment: 8 pages, 4 figures, accepted for publication in ApJ
Global Cosmological Parameters Determined Using Classical Double Radio Galaxies
A sample of 20 powerful extended radio galaxies with redshifts between zero
and two were used to determine constraints on global cosmological parameters.
Data for six radio sources were obtained from the VLA archive, analyzed, and
combined with the sample of 14 radio galaxies used previously by Guerra & Daly
to determine cosmological parameters. The results are consistent with our
previous results, and indicate that the current value of the mean mass density
of the universe is significantly less than the critical value. A universe with
of unity is ruled out at 99.0% confidence, and the best fitting
values of in matter are and
assuming zero space curvature and zero cosmological
constant, respectively. Note that identical results obtain when the low
redshift bin, which includes Cygnus A, is excluded; these results are
independent of whether the radio source Cygnus A is included. The method does
not rely on a zero-redshift normalization.
The radio properties of each source are also used to determine the density of
the gas in the vicinity of the source, and the beam power of the source. The
six new radio sources have physical characteristics similar to those found for
the original 14 sources. The density of the gas around these radio sources is
typical of gas in present day clusters of galaxies. The beam powers are
typically about .Comment: 39 pages includes 21 figures, accepted to Ap
Gravitational waves from stochastic relativistic sources: primordial turbulence and magnetic fields
The power spectrum of a homogeneous and isotropic stochastic variable,
characterized by a finite correlation length, does in general not vanish on
scales larger than the correlation scale. If the variable is a divergence free
vector field, we demonstrate that its power spectrum is blue on large scales.
Accounting for this fact, we compute the gravitational waves induced by an
incompressible turbulent fluid and by a causal magnetic field present in the
early universe. The gravitational wave power spectra show common features: they
are both blue on large scales, and peak at the correlation scale. However, the
magnetic field can be treated as a coherent source and it is active for a long
time. This results in a very effective conversion of magnetic energy in
gravitational wave energy at horizon crossing. Turbulence instead acts as a
source for gravitational waves over a time interval much shorter than a Hubble
time, and the conversion into gravitational wave energy is much less effective.
We also derive a strong constraint on the amplitude of a primordial magnetic
field when the correlation length is much smaller than the horizon.Comment: Replaced with revised version accepted for publication in Phys Rev
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