510 research outputs found
How Much Can High-Quality Universal Pre-K Reduce Achievement Gaps?
Many children of color and children from low-income families enter kindergarten without the academic skills they need to succeed. Compared to their white peers, African American and Hispanic children are anywhere from 9 to 10 months behind in math and 7 to 12 months behind in reading when they enter kindergarten. These achievement gaps are concerning: Math and reading abilities at kindergarten entry are powerful predictors of later school success, and children who enter kindergarten already behind are unlikely to catch up. Moreover, in the past 50 years, minimal progress has been made toward reducing these achievement gaps. Ensuring that all children are entering kindergarten with the foundational academic skills they need to succeed is a major priority for researchers, policymakers, and practitioners alike. Early childhood education programs show promise toward this goal. Research suggests that participation in a high-quality early childhood education program can enhance children's development, reduce achievement gaps at kindergarten entry, and even have long-term benefits for children's school trajectories. However, access to high-quality pre-K in the United States remains quite low and highly unequal due to two problems. First, although pre-K attendance has increased in the past two decades, rates of access to early education vary widely as a function of children's socioeconomic backgrounds: African American, Hispanic, and low-income children are less likely to access center-based early childhood education than their white and more affluent peers. Second, the quality of most early education programs -- particularly those attended by low-income children of color -- is not high enough to substantially improve academic readiness. Recognizing the tremendous potential for high-quality preschool to improve children's outcomes, this report considers how a universal publicly funded prekindergarten program in the United States could decrease both disparities in access to early learning and achievement gaps at kindergarten entry. Data from two nationally representative datasets and prior results from evaluations of high-quality universal pre-kindergarten were analyzed to estimate the extent to which a national high-quality universal pre-K, or UPK, program would reduce achievement gaps at kindergarten entry based on children's race/ethnicity and income
State(s) of Head Start
The National Institute for Early Education Research's (NIEER) State(s) of Head Start report is the first report to describe and analyze in detail Head Start enrollment, funding, quality, and duration, state-by-state. The report focuses on the 2014-2015 program year but also provides longitudinal data beginning with the 2006-2007 program year. Despite the fact that Head Start is a federally funded, national program, the report reveals that access to Head Start programs, funding per child, teacher education, quality of teaching, and duration of services all vary widely by state. Although in some states Head Start meets evidence-based quality standards and serves a high percentage of low-income children statewide, in other states Head Start reaches fewer of those in need, often with low-quality instruction, and insufficient hours. Despite bipartisan support, Head Start suffers from federal funding that restricts the number of vulnerable children who can benefit from Head Start. As a result, some vulnerable children benefit less than others from Head Start participation. Yet we can think of no reason children living in poverty in one state are less deserving of a high-quality education in Head Start than those in another.Revised and streamlined Head Start standards, released in September 20161 , address several of the concerns spotlighted in the report, and demonstrate the Administration for Children and Families' (ACF) commitment to continuous quality improvement and supporting poor children. But without Congress allocating adequate funding, Head Start programs will continue to be forced to choose between providing high-quality or school-day programs; hiring quality teachers (and paying them adequately); or enrolling more children. To be effective, Head Start must be funded sufficiently so that it can provide high-quality learning experiences to more children for longer periods of time per day and per year. This report's findings underscore the need for greater coordination between Head Start and state and local government agencies to build high-quality early learning programs with widespread reach and adequate funding. The authors call for an independent bipartisan national commission to study the issues raised in this report and develop an action plan to ensure every eligible child in every state has an equal opportunity to benefit from Head Start
Medium effects in K^+ nucleus interaction from consistent analysis of integral and differential cross sections
Self consistency in the analysis of transmission measurements for K^+ on
several nuclei in the momentum range of 500-700 MeV/c is achieved with a
"t_{eff}(rho)rho" potential and new results are derived for total cross
sections. The imaginary part of the t_{eff} amplitude is found to increase
linearly with the average nuclear density in excess of a threshold value. This
phenomenological density dependence of the K^+ nucleus optical potential also
gives rise to good agreement with recent measurements of differential cross
sections for elastic scattering of 715 MeV/c K^+ by Li^6 and C.Comment: 11 pages, RevTeX, 2 Postscript figures, submitted Phys. Lett.
Nonabelian Vortices on Surfaces and Their Statistics
We discuss the physics of topological vortices moving on an arbitrary surface
M in a Yang-Mills-Higgs theory in which the gauge group G breaks to a finite
subgroup H. We concentrate on the case where M is compact and/or nonorientable.
Interesting new features arise which have no analog on the plane. The
consequences for the quantum statistics of vortices are discussed, particularly
when H is nonabelian.Comment: 27 pages, 6 figures, requires harvma
Are you sitting comfortably? The political economy of the body
The aim of this paper is to examine the relationship between the mass production of furniture in modern industrial societies and lower back pain (LBP). The latter has proven to be a major cost to health services and private industry throughout the industrialised world and now represents a global health issue as recent WHO reports on obesity and LBP reveal. Thus far there have been few co-ordinated attempts to deal with the causes of the problem through public policy. Drawing upon a range of sources in anthropology, health studies, politics and economics, the paper argues that this a modern social problem rooted in the contingent conjuncture of natural and social causal mechanisms. The key question it raises is: what are the appropriate mechanisms for addressing this problem? This paper develops an analysis rooted in libertarian social theory and argues that both the state and the capitalist market are flawed mechanisms for resolving this problem. There remains a fundamental dilemma for libertarians, however. Whilst the state and the market may well be flawed mechanisms, they are the dominant ones shaping global political economy. To what extent can libertarians work within these structures and remain committed to libertarian goals
Gravitational Wave Experiments and Early Universe Cosmology
Gravitational-wave experiments with interferometers and with resonant masses
can search for stochastic backgrounds of gravitational waves of cosmological
origin. We review both experimental and theoretical aspects of the search for
these backgrounds. We give a pedagogical derivation of the various relations
that characterize the response of a detector to a stochastic background. We
discuss the sensitivities of the large interferometers under constructions
(LIGO, VIRGO, GEO600, TAMA300, AIGO) or planned (Avdanced LIGO, LISA) and of
the presently operating resonant bars, and we give the sensitivities for
various two-detectors correlations. We examine the existing limits on the
energy density in gravitational waves from nucleosynthesis, COBE and pulsars,
and their effects on theoretical predictions. We discuss general theoretical
principles for order-of-magnitude estimates of cosmological production
mechanisms, and then we turn to specific theoretical predictions from
inflation, string cosmology, phase transitions, cosmic strings and other
mechanisms. We finally compare with the stochastic backgrounds of astrophysical
origin.Comment: 99 pages, Latex, 17 figures. To appear in Physics Report. v4:
conceptual changes in sect. 7.
Future Opportunities for Research in Rescue Treatments
Clinical studies of rescue medications for seizure clusters are limited and are designed to satisfy regulatory requirements, which may not fully consider the needs of the diverse patient population that experiences seizure clusters or utilize rescue medication. The purpose of this narrative review is to examine the factors that contribute to, or may influence the quality of, seizure cluster research with a goal of improving clinical practice. We address five areas of unmet needs and provide advice for how they could enhance future trials of seizure cluster treatments. The topics addressed in this article are: (1) unaddressed end points to pursue in future studies, (2) roles for devices to enhance rescue medication clinical development programs, (3) tools to study seizure cluster prediction and prevention, (4) the value of other designs for seizure cluster studies, and (5) unique challenges of future trial paradigms for seizure clusters. By focusing on novel end points and technologies with value to patients, caregivers, and clinicians, data obtained from future studies can benefit the diverse patient population that experiences seizure clusters, providing more effective, appropriate care as well as alleviating demands on health care resources
Equilibrium of large astrophysical structures in the Newton-Hooke spacetime
Using the scalar and tensor virial equations, the Lane-Emden equation
expressing the hydrostatic equilibrium and small oscillations around the
equilibrium, we show how the cosmological constant affects various
astrophysical quantities important for large matter conglomeration in the
universe. Among others we examine the effect of on the polytropic
equation of state for spherically symmetric objects and find non-negligible
results in certain realistic cases. We calculate the angular velocity for
non-spherical oblate configurations which demonstrates a clear effect of
on high eccentricity objects. We show that for oblate as well as
prolate ellipsoids the cosmological constant influences the critical mass and
the temperature of the astrophysical object. These and other results show that
the effect of is large for flat astrophysical bodies.Comment: References adde
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