The large -
scale structure seen today has its origins in the turbulent infancy of the universe.
Dark matter is the backbone of the universe upon which galaxies built themselves into the large -
scale structures seen today.
Not exact matches
Looking back on it, I can definitely
see the similarities in terms of what it takes to envision, manage, and build complex
structures, whether that's accomplished on the enormous
scale of a city or on the microscopic level of a semiconductor chip with billions of transistors.
This assumption is justified by the observations that, while the universe is «weakly» inhomogeneous and anisotropic (
see the large -
scale structure of the cosmos), it is on average homogeneous and isotropic.
Then you begin to
see structure or coarseness or irregularity, which is the Planck
scale, the basement level of the universe.
Rennie: Right, right, that's right, you would, that's probably what most of us would have naively figured — you would
see when you would look at the
structure of the Web and how things grew up because it seems like things are up online and other things attach themselves and they inspire other things and you might expect that kind of exponential
structure, but in fact you are getting this
scale - free
structure and that says there's something interesting about the way that in effect information wants to be organized within networks.
But you
see remarkable, fine
scale structure in the dust front,» Kenney explained.
Small primordial ripples in the
structure of spacetime, which can be
seen in the cosmic microwave background, grew to colossal
scale and led to the formation of stars, galaxies, and other
structures.
«You won't just
see beautiful images with fine -
scale structure, but you'll also be able to measure what the temperature is and what the density is,» says Eric Priest, a solar physicist at the University of Saint Andrews in Scotland who is not part of the IRIS team.
The team then went further and looked to
see if the rotation axes were linked, not just to each other, but also to the
structure of the Universe on large
scales at that time.
Type Ia supernovae are explosions that can be
seen even in far - away galaxies and help astronomers study the large -
scale structure of the Universe.
The interest lies not just in the arcana of accelerator experiments but suffuses everything in the world around us: mass is what determines the range of forces and sets the
scale of all the
structures we
see in nature.
The researchers used a combination of advanced electronic
structure calculations, magnetic property measurements, and revolving scanning transmission electron microscopy (revolving STEM) to
see what was happening at the atomic
scale in NiFeCrCo.
You can
see the
structure here, on the micrometer
scale.
I have not examined the economic data, but it appears that M&M 2007 maybe can not win — either (i) the spatial distribution of the economic indices are equally smooth and M&M 2007's attempt to account for dependencies within each country fails to resolve the problem of dependency between the countries, or (ii) the economic indices vary abruptly from country to country and thus have very different spatial
scales and
structures to those
seen in the warming trends.
Though this is the first time such a phenomenon has been
seen in a disk around a young star, «Similar
structures and dynamics commonly occur on small and large
scales throughout the Universe.
But once this is achieved, EHT astronomers expect to be able to resolve an image of Sagittarius A *'s shadow and
see small -
scale structures surrounding the black hole, confirming some of the most extreme theories for physics in this strong gravity environment and, perhaps, revealing some surprises along the way.
So what we now want to pursue, now that we have that resolution, is to
see how we can take advantage of that to study the function of the cell at that
scale so that we can use that as a biomarker because many of the clinical measurements these days focus on
structure and that is usually a very late indicator of the disease.
Many galaxies are gravitationally bound together to form clusters, which themselves are loosely bound into superclusters, which in turn are sometimes
seen to align over even larger
scale structures.
«It is remarkable how the environment on the enormous cosmic
scales seen in the dark matter
structures can influence the properties of individual stars and galaxies - both the maturity of the stellar populations and the progressive «downsizing» of star formation to smaller galaxies is clearly dependent on the dark matter environment,» said Scoville.
A. Chemistry has a reputation as a «hard» subject, and it is a difficult science for many students — and adults, even adults with college degrees — to understand, because it's based on abstract concepts, about what it's impossible to
see, like the
structure of matter and interactions on a molecular
scale.
The large -
scale work invited curiosity of its meaning... was the five - section
structure meant to be a viewed from afar in reverence to something whose time had passed or walked among to
see if meaning would seep from its towering walls and purposeful paths.
In his large -
scaled canvases — which often develop beyond the bidimensional realm, through video and sculptural installations — we
see diverse folks and spiritual entities in the battlefield, reinvidicating their histories when facing wars, tormentors and icons appropriated by the biopower
structures of western society.
That is to say, the transport of energy is (over some range of wavelengths) from shorter to longer wavelengths, the opposite of what is typically
seen in a fluid, where energy is dissipated by the small -
scale turbulent
structures.
In particular, a strong case has been made that climatological processes exhibit time - series
structures that are not well represented by an AR (1) model, either, and that a richer, fractal (
scaling), model might correspond better to both the physics and the observed data (
see Koutsoyiannis, here).
The actual chaotic behavior of Earth's climate system is much closer to the behavior of a Rayleigh - Beynard cell, which can be
seen in the rather highly
structured Hadley, Ferrel, and Polar cells that usually govern the large -
scale circulation in the troposphere.
The persistent barotropic vertical
structure of these forced waves with m = 6, 7, and 8 on a monthly time
scale in the extreme years is clearly documented in corresponding maps (
see, e.g., figures S1 and S2 in ref.
With reference to the typical
structure of large
scale dynamics, the jet stream may become more «sticky» — leading to the sorts of anomalies we have
seen of late.
Pay close attention to the fact that we've already
seen the types of large -
scale invisible
structures we need now in our past, and even our future.
Cravath announced their bonus
structure last week, and so far, Clifford Chance; Allen & Overy; Milbank Tweed Hadley & McCloy LLP and Paul Weiss Rifkind Wharton & Garrison LLP have stated that they were matching the
scale (
see below.)