17,565 research outputs found
The replication of DNA in Escherichia coli
Studies of bacterial transformation and bacteriaphage infection (1-5) strongly indicate that deoxyribonucleic acid (DNA) can carry and transmit hereditary information and can direct its own replication. Hypotheses for the mechanism of DNA replication differ in the predictions they make concerning the distribution among progeny molecules of atoms derived from parental molecules.(6
Shear layer excitation, experiment versus theory
The acoustical excitation of shear layers is investigated. Acoustical excitation causes the so-called orderly structures in shear layers and jets. Also, the deviations in the spreading rate between different shear layer experiments are due to the same excitation mechanism. Measurements in the linear interaction region close to the edge from which the shear layer is shed are examined. Two sets of experiments (Houston 1981 and Berlin 1983/84) are discussed. The measurements were carried out with shear layers in air using hot wire anemometers and microphones. The agreement between these measurements and the theory is good. Even details of the fluctuating flow field correspond to theoretical predictions, such as the local occurrence of negative phase speeds
A Revised Geometry for the Magnetic Wind of theta^1 Orionis C
Theta^1 Ori is thought to be a hot analog of Bp variables because its optical
and UV line and X-ray continuum fluxes modulate regularly over the
magnetic/rotational period. A flattened magnetosphere surrounding co-rotates
with these stars, producing a periodic modulation of emission and absorption
components of the UV resonance lines, as well as of optical H and He lines. In
this paper we examine these modulations in detail and point out that the
far-blue and near-red wings of C IV and N V resonance lines exhibit
anticorrelated modulations, causing mild flux elevations at moderate redshifts
at edge-on phase (phi=0.5). However, the lines do not exhibit rest-frame
absorption features, the usual signatures of cool static disks surrounding Bp
stars. We suggest that this behavior can be explained by the existence of two
geometrically distinct wind regions separated by the local magnetic Alfven
radius. Wind streams emerging outside this point are forced outward by
radiative forces and eventually expand outward radially to infinity - this
matter produces the far-blue wing absorptions at phi=0.5. Interior streams
follow closed loops and collide at the magnetic equator with counterstreams.
There they coalesce and fall back to the star along their original field lines
- these are responsible for mild emissions at this same phase. The rapid
circulation of the interior wind component back to the star is responsible for
the absence of static disk features.Comment: 7 figure
Escape, capture, and levitation of matter in Eddington outbursts
Context: An impulsive increase in luminosity by one half or more of the
Eddington value will lead to ejection of all optically thin plasma from
Keplerian orbits around the radiating star, if gravity is Newtonian and the
Poynting-Robertson drag is neglected. Radiation drag may bring some particles
down to the stellar surface. On the other hand, general relativistic
calculations show that gravity may be balanced by a sufficiently intense
radiation field at a certain distance from the star.
Aims: We investigate the motion of test particles around highly luminous
stars to determine conditions under which plasma may be ejected from the
system.
Results: In Einstein's gravity, if the outburst is close to the Eddington
luminosity, all test particles orbiting outside an "escape sphere" will be
ejected from the system, while all others will be captured from their orbits
onto the surface of another sphere, which is well above the stellar surface,
and may even be outside the escape sphere, depending on the value of
luminosity. Radiation drag will bring all the captured particles to rest on
this "Eddington capture sphere," where they will remain suspended in an
equilibrium state as long as the local flux of radiation does not change and
remains at the effective Eddington value.Comment: 6 pages, 6 figures. To be published in Astronomy and Astrophysic
Energy Conversion Alternatives Study (ECAS), Westinghouse phase 1. Volume 6: Closed-cycle gas turbine systems
Both recuperated and bottomed closed cycle gas turbine systems in electric power plants were studied. All systems used a pressurizing gas turbine coupled with a pressurized furnace to heat the helium for the closed cycle gas turbine. Steam and organic vapors are used as Rankine bottoming fluids. Although plant efficiencies of over 40% are calculated for some plants, the resultant cost of electricity was found to be 8.75 mills/MJ (31.5 mills/kWh). These plants do not appear practical for coal or oil fired plants
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