10,582 research outputs found
Facebook surveillance of former romantic partners: Associations with post-breakup recovery and personal growth
Copyright @ 2012 Mary Ann Liebert, Inc.This article has been made available through the Brunel Open Access Publishing Fund.Previous research has found that continuing offline contact with an ex-romantic partner following a breakup may disrupt emotional recovery. The present study examined whether continuing online contact with an ex-partner through remaining Facebook friends and/or engaging in surveillance of the ex-partner's Facebook page inhibited postbreakup adjustment and growth above and beyond offline contact. Analysis of the data provided by 464 participants revealed that Facebook surveillance was associated with greater current distress over the breakup, more negative feelings, sexual desire, and longing for the ex-partner, and lower personal growth. Participants who remained Facebook friends with the ex-partner, relative to those who did not remain Facebook friends, reported less negative feelings, sexual desire, and longing for the former partner, but lower personal growth. All of these results emerged after controlling for offline contact, personality traits, and characteristics of the former relationship and breakup that tend to predict postbreakup adjustment. Overall, these findings suggest that exposure to an ex-partner through Facebook may obstruct the process of healing and moving on from a past relationship
Change for the Better? An Examination of How Technology-Based Instruction During COVID-19 Changed Teaching Methods in Band
Despite having access to such technologies, most music educators were not using online worksheets, playing exercises, or video questionnaires during daily instruction prior to the COVID-19 pandemic in 2020. For example, in the band world, the only daily use of technology may have been the metronome, as most band directors focus on playing exercises and literature during class. Band classes are “hands-on” and performance-based. With the onset of the COVID-19 pandemic, band directors had to transition from traditional teaching to teaching band online quickly. To combat the rapid spread of the coronavirus, schools in all fifty states and all U.S. territories were mandated to discontinue meeting in person, forcing all educators to transition to online formats in a decidedly rapid fashion. Going from face-to-face to looking at students through a screen changed how band directors were able to teach band instantly. The issues that band directors faced during the pandemic were transitioning traditional lessons to an online format and finding solutions when faced with the limitations of technology. However, once classes returned to in-person teaching, some teaching strategies developed during the shutdown continued to be used in their face-to-face teaching. The band directors’ perspectives are untold, but they do matter. Their successes can be a blueprint for new music educators or those who want to learn more about implementing technology into the classroom. This qualitative study will examine the perspectives of middle and high school band directors in Cedar Hill, Texas, who were teaching during the onset of the COVID-19 shutdown
Shock wave loading and spallation of copper bicrystals with asymmetric Σ3〈110〉tilt grain boundaries
We investigate the effect of asymmetric grain boundaries (GBs) on the shock response of Cu bicrystals with molecular dynamics simulations. We choose a representative Σ3〈110〉tilt GB type, (110)_1/(114)_2, and a grain size of about 15 nm. The shock loading directions lie on the GB plane and are along [001] and [221] for the two constituent crystals. The bicrystal is characterized in terms of local structure, shear strain, displacement, stress and temperature during shock compression, and subsequent release and tension. The shock response of the bicrystal manifests pronounced deviation from planar loading as well as strong stress and strain concentrations, due to GBs and the strong anisotropy in elasticity and plasticity. We explore incipient to full spallation. Voids nucleate either at GBs or on GB-initiated shear planes, and the spall damage also depends on grain orientation
Anisotropic shock response of columnar nanocrystalline Cu
We perform molecular dynamics simulations to investigate the shock response of idealized hexagonal columnar nanocrystalline Cu, including plasticity, local shear, and spall damage during dynamic compression, release, and tension. Shock loading (one-dimensional strain) is applied along three principal directions of the columnar Cu sample, one longitudinal (along the column axis) and two transverse directions, exhibiting a strong anisotropy in the response to shock loading and release. Grain boundaries (GBs) serve as the nucleation sites for crystal plasticity and voids, due to the GB weakening effect as well as stress and shear concentrations. Stress gradients induce GB sliding which is pronounced for the transverse loading. The flow stress and GB sliding are the lowest but the spall strength is the highest, for longitudinal loading. For the grain size and loading conditions explored, void nucleation occurs at the peak shear deformation sites (GBs, and particularly triple junctions); spall damage is entirely intergranular for the transverse loading, while it may extend into grain interiors for the longitudinal loading. Crystal plasticity assists the void growth at the early stage but the growth is mainly achieved via GB separation at later stages for the transverse loading. Our simulations reveal such deformation mechanisms as GB sliding, stress, and shear concentration, GB-initiated crystal plasticity, and GB separation in nanocrystalline solids under shock wave loading
Evaluating Acceptance and Commitment Therapy and Mindfulness-Based Stress Reduction Self-Help Books for College Student Mental Health
Objectives: Self-help has the potential to improve access to mental health resources for college students. However, solutions are needed to improve sustainable delivery, cost- effectiveness, and to know which resources are most useful. Methods: A sample of 109 college students were randomly assigned to read either an Acceptance and Commitment Therapy (ACT) or Mindfulness-Based Stress Reduction (MBSR) self-help book through the University library website over 8 weeks with assessments at baseline, midtreatment (4-weeks), and posttreatment (8-weeks). Results: The majority of participants reported reading over half of their assigned book and high satisfaction ratings were given for both books. Both conditions demonstrated equivalent medium to large effect sizes for improvements over time on outcomes (psychological distress, positive mental health, academic distress) and processes of change (psychological inflexibility, mindfulness, cognitive fusion). However, the ACT condition produced improvements on obstruction with valued action more quickly than MBSR. Across conditions, baseline to midtreatment improvements in psychological inflexibility, valued action, cognitive fusion, and mindfulness all predicted baseline to posttreatment improvements in psychological distress. Improvements in psychological inflexibility more strongly predicted improvements in positive mental health in the MBSR condition. Conclusions: Overall, results suggest the potential benefits of both ACT and MBSR self-help books for improving student mental health and the potential promise of delivering these books through online university library systems
Galactic Globular and Open Clusters in the Sloan Digital Sky Survey. II. Test of Theoretical Stellar Isochrones
We perform an extensive test of theoretical stellar models for main-sequence
stars in ugriz, using cluster fiducial sequences obtained in the previous paper
of this series. We generate a set of isochrones using the Yale Rotating
Evolutionary Code (YREC) with updated input physics, and derive magnitudes and
colors in ugriz from MARCS model atmospheres. These models match cluster main
sequences over a wide range of metallicity within the errors of the adopted
cluster parameters. However, we find a large discrepancy of model colors at the
lower main sequence (Teff < ~4500 K) for clusters at and above solar
metallicity. We also reach similar conclusions using the theoretical isochrones
of Girardi et al. and Dotter et al., but our new models are generally in better
agreement with the data. Using our theoretical isochrones, we also derive
main-sequence fitting distances and turn-off ages for five key globular
clusters, and demonstrate the ability to derive these quantities from
photometric data in the Sloan Digital Sky Survey. In particular, we exploit
multiple color indices (g - r, g - i, and g - z) in the parameter estimation,
which allows us to evaluate internal systematic errors. Our distance estimates,
with an error of sigma(m - M) = 0.03-0.11 mag for individual clusters, are
consistent with Hipparcos-based subdwarf fitting distances derived in the
Johnson-Cousins or Stromgren photometric systems.Comment: 26 pages, 28 figures. Accepted for publication in ApJ. Version with
high resolution figures available at
http://spider.ipac.caltech.edu/~deokkeun/sdss_iso.pd
Articular contact in a three-dimensional model of the knee
This study is aimed at the analysis of articular contact in a three-dimensional mathematical model of the human knee-joint. In particular the effect of articular contact on the passive motion characteristics is assessed in relation to experimentally obtained joint kinematics. Two basically different mathematical contact descriptions were compared for this purpose. One description was for rigid contact and one for deformable contact. The description of deformable contact is based on a simplified theory for contact of a thin elastic layer on a rigid foundation. The articular cartilage was described either as a linear elastic material or as a non-linear elastic material. The contact descriptions were introduced in a mathematical model of the knee. The locations of the ligament insertions and the geometry of the articular surfaces were obtained from a joint specimen of which experimentally determined kinematic data were available, and were used as input for the model. The ligaments were described by non-linear elastic line elements. The mechanical properties of the ligaments and the articular cartilage were derived from literature data. Parametric model evaluations showed that, relative to rigid articular contact, the incorporation of deformable contact did not alter the motion characteristics in a qualitative sense, and that the quantitative changes were small. Variation of the elasticity of the elastic layer revealed that decreasing the surface stiffness caused the ligaments to relax and, as a consequence, increased the joint laxity, particularly for axial rotation. The difference between the linear and the non-linear deformable contact in the knee model was very small for moderate loading conditions. The motion characteristics simulated with the knee model compared very well with the experiments. It is concluded that for simulation of the passive motion characteristics of the knee, the simplified description for contact of a thin linear elastic layer on a rigid foundation is a valid approach when aiming at the study of the motion characteristics for moderate loading conditions. With deformable contact in the knee model, geometric conformity between the surfaces can be modelled as opposed to rigid contact which assumed only point contact
Tag-Based Annotation for Avatar Face Creation
Currently, digital avatars can be created manually using human images as
reference. Systems such as Bitmoji are excellent producers of detailed avatar
designs, with hundreds of choices for customization. A supervised learning
model could be trained to generate avatars automatically, but the hundreds of
possible options create difficulty in securing non-noisy data to train a model.
As a solution, we train a model to produce avatars from human images using
tag-based annotations. This method provides better annotator agreement, leading
to less noisy data and higher quality model predictions. Our contribution is an
application of tag-based annotation to train a model for avatar face creation.
We design tags for 3 different facial facial features offered by Bitmoji, and
train a model using tag-based annotation to predict the nose.Comment: 9 pages, 5 figures, 18 table
Swept-source based, single-shot, multi-detectable velocity range Doppler optical coherence tomography
Phase-Resolved Doppler Optical Coherence Tomography (PR-DOCT) allows visualization and characterization of the location, direction, velocity, and profile of flow activity embedded in a static sample structure. The detectable Velocity Dynamic Range (VDR) of each particular PR-DOCT system is governed by a detectable Doppler phase shift, a flow angle, and an acquisition time interval used to determine the Doppler phase shift. In general, the lower boundary of the detectable Doppler phase shift is limited by the phase stability of the system, while the upper boundary is limited by the π phase ambiguity. For a given range of detectable Doppler phase shift, shortening the acquisition duration will increase not only the maximum detectable velocity but unfortunately also the minimum detectable velocity, which may lead to the invisibility of a slow flow. In this paper, we present an alternative acquisition scheme for PR-DOCT that extends the lower limit of the velocity dynamic range, while maintaining the maximum detectable velocity, hence increasing the overall VDR of PR-DOCT system. The essence of the approach is to implement a technique of multi-scale measurement to simultaneously acquire multiple VDRs in a single measurement. We demonstrate an example of implementation of the technique in a dual VDR DOCT, where two Doppler maps having different detectable VDRs were simultaneously detected, processed, and displayed in real time. One was a fixed VDR DOCT capable of measuring axial velocity of up to 10.9 mm/s without phase unwrapping. The other was a variable VDR DOCT capable of adjusting its detectable VDR to reveal slow flow information down to 11.3 μm/s. The technique is shown to effectively extend the overall detectable VDR of the PR-DOCT system. Examples of real time Doppler imaging of an African frog tadpole are demonstrated using the dual-VDR DOCT system
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