5,535 research outputs found
Weyl Geometry as Characterization of Space-Time
Motivated by an axiomatic approach to characterize space-time it is
investigated a reformulation of Einstein's gravity where the pseudo-riemannian
geometry is substituted by a Weyl one. It is presented the main properties of
the Weyl geometry and it is shown that it gives extra contributions to the
trajectories of test particles, serving as one more motivation to study general
relativity in Weyl geometry. It is introduced its variational formalism and it
is established the coupling with other physical fields in such a way that the
theory acquires a gauge symmetry for the geometrical fields. It is shown that
this symmetry is still present for the red-shift and it is concluded that for
cosmological models it opens the possibility that observations can be fully
described by the new geometrical scalar field. It is concluded then that this
reformulation, although representing a theoretical advance, still needs a
complete description of their objects.Comment: 12 page
Sgr A* ``Visual Binaries'': A Direct Measurement of the Galactocentric Distance
We present a new geometrical method for measuring the distance to the
Galactic center (R_0) by solving for the Keplerian orbit of individual stars
bound to the black hole associated with the Sgr A* from radial velocity and
proper motion measurements. We identify three stars to which the method may be
applied, and show that 1-5 % accuracy of R_0 can be expected after 15 years of
observing, and 0.5-2 % after 30 years of observing, depending on what the
orbital parameters of these three stars turn out to be. Combining the
measurements of the three stars with favorable orbital parameters leads to even
more precise values. In the example that we present, such combined solution
yields 4 % accuracy already by the year 2002. All these estimates assume that
annual position measurements will continue to be made with the 2 mas precision
recently reported by Ghez et al. The precision of the distance measurement is
relatively insensitive to the radial velocity errors, provided that the latter
are less than 50 km/s. Besides potentially giving an estimate of R_0 that is
better than any currently in use, the greatest advantage of this method is that
it is free from systematic errors.Comment: Submitted to ApJ, 14 pages, 8 figure
Implementation of Graph Colouring Using Welch-Powell Algorithm to Determine Student Mentoring Schedule
Graph colouring using the Welch-Powell algorithm is one of the schedule preparation techniques. Especially for arranging student guidance schedules in a study program. The vertex on a graph is represented as a student who will conduct guidance, while the side that connects two vertex states if the two vertex or two students have one and/or two of the same supervisors. The results of this research indicate that the coloring of graphs using the Welch Powell algorithm can be applied to compile the guidance schedule of PGSD students at the Pacific University of Morotai
Peran Pelibatan Diri Siswa Sebagai Mediator Dalam Hubungan Antara Iklim Kelas Dengan Sikap Kreatif Siswa SD Sekolah Alam
The aim of this study is to measure the role of student‟s school engagement as mediator in relations between classroom climate with creative attitude in nature-based school. The background of this research is the needs of creative attitude to face the challenge in the future by create the classroom climate and make the children more involved in school activity. One of the ways to increase creative attitude and school engagement is by creating the classroom climate that support the student‟s need. Nature-based school is one of alternative schools in Indonesia that creates active learning in their classroom climate that encourage students to be more engage, so therefore the students can have creative attitude. This research is done with quantitative methods and non-probability sampling methods for elementary school students from grade 3 until 5 in one of Nature Based School in Jakarta, by giving them three self report questionnaires. This research use three measuring instruments, Inventory Classroom Environment, Creativity Attitude Survey, and School Engagement Measure. Thorugh regression analysis, the results showing the positive correlation between classroom climate and school engagement (r = .373; p = .006) and creative attitude (r = .217; p = .002). Through the mediation analysis, the results indicated that school engagement had a role as full mediator in relations between classroom climate with creative attitude in nature based school elementary students. This thing define that classroom climate in nature-based school will improve student‟s creative attitude when students involved emotionally, in cognitive and behavioral in school activity
A Compact Microchip-Based Atomic Clock Based on Ultracold Trapped Rb Atoms
We propose a compact atomic clock based on ultracold Rb atoms that are
magnetically trapped near the surface of an atom microchip. An interrogation
scheme that combines electromagnetically-induced transparency (EIT) with
Ramsey's method of separated oscillatory fields can achieve atomic shot-noise
level performance of 10^{-13}/sqrt(tau) for 10^6 atoms. The EIT signal can be
detected with a heterodyne technique that provides noiseless gain; with this
technique the optical phase shift of a 100 pW probe beam can be detected at the
photon shot-noise level. Numerical calculations of the density matrix equations
are used to identify realistic operating parameters at which AC Stark shifts
are eliminated. By considering fluctuations in these parameters, we estimate
that AC Stark shifts can be canceled to a level better than 2*10^{-14}. An
overview of the apparatus is presented with estimates of duty cycle and power
consumption.Comment: 15 pages, 11 figures, 5 table
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