Not exact matches
Second: The Creation tale is simply a way for
early humans to explain mans creation and «fall» from God's predetermined path... The old testament is full of stuff more related to philosophy and health advice then «Gods word» However, this revelation has not made me less of a christian... In Contrast to those stuck in «the old ways» regarding faith (not believing in neanderthals and championing the claim that earth is only 6000 years old), I believe God created the universe on the very principle of physics and
evolution (and other sciencey stuff)... Thus the first clash of atoms was the first step in the billionyear long recipe in creating the universe, the
galaxies, the stars, the planets, life itself and us.
It reveals its presence only by its gravitational effects, guiding the
evolution of the
early universe and still affecting the motion of
galaxies.
Astronomers have shed further light on the
evolution of the
early Universewith the discovery of a «team» of super bright
galaxies.
These very dim objects may be more representative of the
early universe, and offer new insight on the formation and
evolution of the first
galaxies.
«This particular grouping of
galaxies represents an important milestone in the
evolution of our Universe: the formation of a
galaxy cluster and the
early assemblage of large, mature
galaxies.»
This close - up view should help astronomers understand how collisions, which were once far more common than they are now, influenced star formation and the
evolution of
galaxies in the
early universe.
The study is «an important step forward» in understanding the
evolution of
early galaxies, says astronomer Giovanni Fazio of the Harvard - Smithsonian Center for Astrophysics in Cambridge, Massachusetts.
A new study led by University of California, Riverside astronomers casts light on how young, hot stars ionize oxygen in the
early universe and the effects on the
evolution of
galaxies through time.
An accidental find in a star - forming dwarf
galaxy shows that black holes may mature
early in
galaxy evolution
On the other hand, if there are 100 billion suitable planets in our
galaxy, if the origin of life is highly probable, if there are billions of years of
evolution available on each such planet and if even a small fraction of technical civilizations pass safely through the
early stages of technological adolescence, the number of technological civilizations in the
galaxy today might be very large.
The current cosmological model to explain our universe, the «Big Bang» model, aims to describe all the phenomena we observe, which includes the
galaxies and their
evolution from
earliest times to the present day.
But if detected, they can offer valuable insights to how the first
galaxies formed some 13 billion years ago, and therefore to the
evolution of the
early universe.
Astronomers have identified powerful radio - emitting
galaxies that existed when the universe was only one tenth its present age These objects offer a glimpse at the
early evolution of giant
galaxies
«Really
early galaxies are incredibly dusty and this dust plays a major role in the
evolution of
galaxies,» said Mikako Matsuura of University College London, UK.
UGC 1382 came to our attention while we were looking at star formation in
early - type
galaxies using NASA's Galaxy
Evolution Explorer (GALEX).
We now know that
galaxies began dying fairly
early in the history of the universe, and that central supermassive black holes and galactic collisions play key roles in galactic
evolution.
By developing and bringing to bear innovative spectroscopic and high resolution imaging instruments on large ground - based telescopes and space telescopes, he and his team have been studying massive black holes in the centers of
galaxies (including our own), galactic star formation over cosmic time, and the
evolution of
galaxies in the
Early Universe.
This portion of the spectrum, which is more energetic than most radio waves yet less energetic than visible and infrared light, holds the key to understanding a great variety of fundamental processes, including planet and star formation, and the formation and
evolution of
galaxies and
galaxy clusters in the
early Universe.
With its highly sensitive IR capabilities, TMT will extend our studies of this important line emission, revealing the scale of clustering of
early Lyman alpha
galaxies and thereby helping to track the
evolution of ionization through cosmic time.
Previous infrared missions, from IRAS to Herschel, have revealed a great deal about the obscured... ▽ More Measurements in the infrared wavelength domain allow us to assess directly the physical state and energy balance of cool matter in space, thus enabling the detailed study of the various processes that govern the formation and
early evolution of stars and planetary systems in
galaxies over cosmic time.
With this exceptional leap in performance, new domains in infrared astronomy will become accessible, allowing us, for example, to unravel definitively
galaxy evolution and metal production over cosmic time, to study dust formation and
evolution from very
early epochs onwards, and to trace the formation history of planetary systems.