There exists
a small galaxy in the universe containing seven worlds, shimmering in seven colors... These worlds exist and act independent of one another.
Not exact matches
Love that sentence, «this
small, insignificant planet revolving
in this vast solar system, traveling
in this vast
galaxy, floating through this endless
universe».
Do fundamentalists ever use their reasoning ability an wonder why God, the creator of the
Universe, would make such laws and demands on the inhabitants of this
small, insignificant planet revolving
in this vast solar system, traveling
in this vast
galaxy, floating through this endless
universe?
The being who created the entire
universe and its billions of
galaxies (make your choice from the above list and thousands of others) reads your mind, or — «hears your prayers» if you prefer a less embarrassing, euphamism for exactly the same thing — reacts and alters whatwould otherwise be the course of history
in small ways to suit your whims.
We may be but one among many living things on a
small planet swimming
in the endless spaces of a vast
galaxy within an almost infinite cosmos, yet surely we are among the most astonishing manifestations of evolution
in the whole of the
universe.
It means that the earth on which we live is not the center of the physical
universe, but a comparatively
small planet revolving round a very average - sized star, which
in turn is but one of a hundred thousand million others forming the
galaxy we call the Milky Way, and that part of the
universe that our existing telescopes have so far penetrated contains about a hundred million star systems or nebulae, similar to our
galaxy.
They accepted the notion that the entire observable
universe — 100 billion
galaxies, each stuffed with 100 billion stars, stretching out more than 10 billion light - years
in all directions — was once squashed into a space far
smaller than a single electron.
The
galaxies in the early
universe started off
small and the theory of the astronomers is that the baby
galaxies gradually grew larger and more massive by constantly colliding with neighbouring
galaxies to form new, larger
galaxies.
His work was very mathematical and computer - intensive, two of my strengths at the time, and we made a lot of progress on a
small project about
galaxy motions
in the nearby
universe.
They seem to explode preferentially
in more primitive
galaxies — those with
smaller quantities of elements heavier than hydrogen or helium — which were more common
in the early
universe.
These
small, faint systems made up of millions or billions of stars, dust, and gas constitute the most common type of
galaxy observed
in the
universe.
For example,
small differences
in temperature across the sky show where parts of the
universe were denser, eventually condensing into
galaxies and galactic clusters.
Much as a teacher would be amazed to enter a preschool classroom full of college - age students, astronomers were thrown for a loop when they found fully formed
galaxies in a distant corner of the
universe they thought was populated with relatively
small, ragged gatherings of stars.
The discovery that many
small galaxies throughout the
universe do not «swarm» around larger ones like bees do but «dance»
in orderly disc - shaped orbits is a challenge to our understanding of how the
universe formed and evolved.
And there are good arguments that you might only find them when the vacuum energy is incredibly
small, because a larger vacuum energy blows the
universe apart, [it] produces a repulsive force before
galaxies could form, and if you believe that observers only form
in their
galaxies, no observers
in those
universes.
These
galaxies, the
smallest in the
universe, contain only a few hundred or a few thousand stars (compared with 100 billion stars
in the Milky Way).
But
in a high - density
universe,
small fluctuations will readily form
galaxies, because there is more mass to work with.
The largest clumps of matter
in the
universe had an initial angular momentum — and these clumps broke up into ever
smaller clumps, forming
smaller clusters of
galaxies, groups of
galaxies, individual
galaxies, solar systems within
galaxies and ultimately, individual stars and planets.
Initial fluctuations
in the matter density of the early
universe led to the formation of
galaxies, but these fluctuations must have been
small or they would have imprinted themselves on the microwave background.
While finding a gigantic black hole
in a massive
galaxy in a crowded area of the
universe is to be expected — like running across a skyscraper
in Manhattan — it seemed less likely they could be found
in the
universe's
small towns.
In the standard low - density
universe,
small fluctuations have trouble growing into large
galaxies.
Not only does it hint at the
universe's unexpected richness, but that abundance suggests that
small, irregular
galaxies merge to form the larger ones more familiar
in our cosmic neighborhood.
Cosmologists typically focus on the large - scale properties of the
universe as a whole, such as
galaxies and intergalactic medium; while astrophysicists are more interested
in testing physical theories of
small - to medium - sized objects, such as stars, supernovae and interstellar medium.
The currently favored cosmological
galaxy models are based on the idea of hierarchical structure formation: that structures
in the
universe such as
galaxies develop from
small «overdensities» to become large - scale objects.
The
galaxies are the
smallest, faintest, and most numerous
galaxies ever seen
in the remote
universe, and were captured by Hubble deep exposures taken
in ultraviolet light, and confirmed using the mighty Keck I telescope on the summit of Mauna Kea on the island of Hawaii.
The stretching explanation says that during creation week,
galaxies,
galaxy clusters, and stars with heavy elements formed
in a much
smaller universe.
However,
in the
smaller, early
universe, some growing black holes and nearby stars might have merged before the heavens were stretched out leaving extremely large MBHs
in small galaxies.46
Using telescopes, astronomers have discovered new planets and moons
in our solar system, revealed that our planetary neighbourhood is just a
small part of a vast
galaxy, that our
galaxy is just one of many billions across the
universe, and that most objects
in the
universe are flying away from us at high speed because of its overall expansion.
The idea goes like this: Early
in the
universe's history, large
galaxies grew out of collisions and mergers of
smaller galaxies.
This phenomenon is considered responsible for the
small number of new stars most
galaxies in the known
universe produce every year.
Others theorize that the early
universe broke first into colossal clumps that contained enough building materials to make structures on the grandest scale — great walls and sheets of millions of
galaxies — that fragmented into increasingly
smaller gas and clouds, ultimately resulting
in individual
galaxies.
The merging of
small galaxies into larger ones is common throughout the
universe, but because the shredded
galaxies are so faint it has been hard to extract details
in three - dimensions about how such mergers proceed.
Webb could prove whether
small galaxies in the early
universe merged to form larger
galaxies.
Though the field is a very
small sample of sky area it is considered representative of the typical distribution of
galaxies in space because the
universe, statistically, looks the same
in all directions.
For a
universe made up of many
galaxies, Star Wars continues to box itself
in for the sake of the familiar and everything feels
smaller.
Flinthook puts you
in the shoes of the the titular character - the
galaxy's
smallest space pirate - and tasks you with stopping a malevolent treasure hunter from unleashing an ancient evil across the
universe.