3,327 research outputs found
A Modified Gravity and its Consequences for the Solar System, Astrophysics and Cosmology
A relativistic modified gravity (MOG) theory leads to a self-consistent,
stable gravity theory that can describe the solar system, galaxy and clusters
of galaxies data and cosmology.Comment: 16 pages. Latex file. Talk given at the International Workshop "From
Quantum to Cosmos: Fundamental Physics in Space", 22-24 May, 2006, Warrenton,
Virginia, USA. To be published in Int. J. Mod. Phys D. Equation correcte
The Bullet Cluster 1E0657-558 evidence shows Modified Gravity in the absence of Dark Matter
A detailed analysis of the November 15, 2006 data release (Clowe et al.,
2006) X-ray surface density Sigma-map and the strong and weak gravitational
lensing convergence kappa-map for the Bullet Cluster 1E0657-558 is performed
and the results are compared with the predictions of a modified gravity (MOG)
and dark matter. Our surface density Sigma-model is computed using a King
beta-model density, and a mass profile of the main cluster and an isothermal
temperature profile are determined by the MOG. We find that the main cluster
thermal profile is nearly isothermal. The MOG prediction of the isothermal
temperature of the main cluster is T = 15.5 +- 3.9 keV, in good agreement with
the experimental value T = 14.8{+2.0}{-1.7} keV. Excellent fits to the
two-dimensional convergence kappa-map data are obtained without non-baryonic
dark matter, accounting for the 8-sigma spatial offset between the Sigma-map
and the kappa-map reported in Clowe et al. (2006). The MOG prediction for the
kappa-map results in two baryonic components distributed across the Bullet
Cluster 1E0657-558 with averaged mass-fraction of 83% intracluster medium (ICM)
gas and 17% galaxies. Conversely, the Newtonian dark matter kappa-model has on
average 76% dark matter (neglecting the indeterminant contribution due to the
galaxies) and 24% ICM gas for a baryon to dark matter mass-fraction of 0.32, a
statistically significant result when compared to the predicted Lambda-CDM
cosmological baryon mass-fraction of 0.176{+0.019}{-0.012} (Spergel et al.,
2006).Comment: Accepted for publication in Mon. Not. Roy. Astron. Soc. -- July 26,
2007. In press. 28 pages, 15 figures, 5 table
Effects of very high turbulence on convective heat transfer
The effects of high-intensity, large-scale turbulence on turbulent boundary-layer heat transfer are studied. Flow fields were produced with turbulence intensities up to 40% and length scales up to several times the boundary layer thickness. In addition, three different types of turbulence will be compared to see whether they have the same effect on the boundary layer. The three are: the far field of a free jet, flow downstream of a grid, and flow downstream of a simulated gas turbine combustor. Each turbulence field will be characterized by several measures: intensity (by component), scale, and spectrum. Heat transfer will be measured on a 2.5 m long, 0.5 m wide flat plate using the energy-balance technique. The same plate will be used in each of the four flow fields; a low-turbulence tunnel for baseline data, and the three flow situations mentioned
Gravitational Waves in the Nonsymmetric Gravitational Theory
We prove that the flux of gravitational radiation from an isolated source in
the Nonsymmetric Gravitational Theory is identical to that found in Einstein's
General Theory of Relativity.Comment: 10 Page
Full-coverage film cooling: 3-dimensional measurements of turbulence structure and prediction of recovery region hydrodynamics
Hydrodynamic measurements were made with a triaxial hot-wire in the full-coverage region and the recovery region following an array of injection holes inclined downstream, at 30 degrees to the surface. The data were taken under isothermal conditions at ambient temperature and pressure for two blowing ratios: M = 0.9 and M = 0.4. Profiles of the three main velocity components and the six Reynolds stresses were obtained at several spanwise positions at each of the five locations down the test plate. A one-equation model of turbulence (using turbulent kinetic energy with an algebraic mixing length) was used in a two-dimensional computer program to predict the mean velocity and turbulent kinetic energy profiles in the recovery region. A new real-time hotwire scheme was developed to make measurements in the three-dimensional turbulent boundary layer over the full-coverage surface
Aspects of noncommutative (1+1)-dimensional black holes
We present a comprehensive analysis of the spacetime structure and
thermodynamics of dimensional black holes in a noncommutative
framework. It is shown that a wider variety of solutions are possible than the
commutative case considered previously in the literature. As expected, the
introduction of a minimal length cures singularity pathologies
that plague the standard two-dimensional general relativistic case, where the
latter solution is recovered at large length scales. Depending on the choice of
input parameters (black hole mass , cosmological constant ,
etc...), black hole solutions with zero, up to six, horizons are possible. The
associated thermodynamics allows for the either complete evaporation, or the
production of black hole remnants.Comment: 24 pages, 12 figures, some comments added, conclusions not modified,
version matching that published on PR
The effect of free-stream turbulence on heat transfer to a strongly accelerated turbulent boundary layer
Free-stream turbulence effects on heat transfer to strongly accelerated turbulent boundary laye
The UK productivity puzzle, 2008–2012: evidence using plant-level estimates of total factor productivity
This paper presents new information from plant-level data on the UK’s productivity performance since 2008 and considers whether a fall in the capital-labour ratio explains the UK’s productivity puzzle. The results show that, while both manufacturing and services experienced large declines in labour productivity post-2008, the UK’s poor TFP productivity performance is primarily a service sector and small-plant phenomenon. Most of the fall in TFP in services is accounted for by a large negative TFP shock in 2008–2012. By decomposing the change in average labour productivity, it is shown that declines in the intermediate inputs–labour (rather than the capital–labour) ratio and decreases in TFP were responsible for the fall in labour productivity
Turbulent transport of heat and momentum in a boundary layer subject to deceleration, suction and variable wall temperature
The relationship between the turbulent transport of heat and momentum in an adverse pressure gradient boundary layer was studied. An experimental study was conducted of turbulent boundary layers subject to strong adverse pressure gradients with suction. Near-equilibrium flows were attained, evidenced by outer-region similarity in terms of defect temperature and defect velocity profiles. The relationship between Stanton number and enthalpy thickness was shown to be the same as for a flat plate flow both for constant wall temperature boundary conditions and for steps in wall temperature. The superposition principle used with the step-wall-temperature experimental result was shown to accurately predict the Stanton number variation for two cases of arbitrarily varying wall temperature. The Reynolds stress tensor components were measured for strong adverse pressure gradient conditions and different suction rates. Two peaks of turbulence intensity were found: one in the inner and one in the outer regions. The outer peak is shown to be displaced outward by an adverse pressure gradient and suppressed by suction
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