To understand the structure and
dynamical properties of such systems, the research team headed by Ilya Shmulevich integrates data from a variety of measurements using models and techniques from mathematics, physics, and engineering.
We characterize
the dynamical properties of these candidate multi-planet systems.
The physical and
dynamical properties of these large icy planetoids add another puzzle piece to our understanding of the formation and evolution of the solar system.
Looking to the future, Franco Nori, who led the research team, says, «Our group's investigations integrate relativistic field - theoretical, quantum - mechanical, and optical aspects of
the dynamical properties of light.
We believe that it will also prompt new experiments focusing on
the dynamical properties of the atoms at nanostructures, allowing us to understand the contribution of the previously little probed dynamical structure studies of atomic clusters, towards the physical properties such as catalytic relativities.»
Not exact matches
The history
of science provides many examples
of this combination
of analogy and innovation in the creation
of models which were useful in generating theories.4 The «Bohr model»
of the atom, in which «planetary» electrons revolve in orbits around a central nucleus, resembles the solar system in certain
of its
dynamical properties; but the key assumption
of quantum jumps between orbits had no classical parallel at all.
The biological functionality
of proteins in fact, is increasingly recognised to depend on their collective structural and
dynamical properties.
A
dynamical systems approach, by contrast, consider climate as a sum
of many different parts, each with its own
properties, all
of them interdependent in ways that are hard to predict.
The kinematic
properties of the nebula suggest that it is a rotating structure, which would imply a lower limit to the
dynamical mass
of ~ 3 x 1e11 Msun.
EMSL offers — at one location — a comprehensive array
of cutting - edge resources including those associated with synthesis, characterization, theory and modeling,
dynamical properties and environmental testing relevant to a wide range
of environmentally related issues and topics at the molecular level.
Chaos theory is a metatheory — it merely describes some
properties of complex
dynamical systems.
Chaos theory is a metatheory that gives us clues about the
properties of complex
dynamical systems.
I think a better term is abrupt climate change — chaos theory merely tells us something about the
properties of complex
dynamical systems.
Chaos theory simply tells us something about the
properties of complex and
dynamical systems — such as the global climate system.
Chaos is a metatheory — it tells us something about the
properties of complex
dynamical systems — especially sensitive dependence to initial conditions.
James McWilliams,
of the Department
of Atmospheric and Oceanic Sciences at the University
of California Los Angeles, says that «sensitive dependence and structural instability are humbling twin
properties for chaotic
dynamical systems, indicating limits about which kinds
of questions are theoretically answerable.»
«AOS models are members
of the broader class
of deterministic chaotic
dynamical systems, which provides several expectations about their
properties (Fig. 1).
In principle, an incipient bifurcation in a
dynamical system could be anticipated (100), by looking at the spectral
properties of time series data (101), in particular, extracting the longest system - immanent timescale (τ) from the response
of the system to natural variability (102).
The explanatory power derives from common
properties in the meta theory
of complex
dynamical systems.
Dragon Kings are a
property of complex
dynamical systems signifying extreme and rapid changes that occur at phase transitions.
It looks like a complex
dynamical system that has numerous manifestations that we know
of — as in the diverse examples
of Sornette — therefore it has these
properties that may make analysis tractable but in a different sense than we are used to.
As James McWilliams said — «Sensitive dependence and structural instability are humbling twin
properties for chaotic
dynamical systems, indicating limits about which kinds
of questions are theoretically answerable.
Sensitive dependence and structural instability are humbling twin
properties for chaotic
dynamical systems, indicating limits about which kinds
of questions are theoretically answerable.
It appears to me, caveat as above, that AGW has created a lifeless system in thinking in this «energy balance» much as it has done with CO2 with its destruction
of the
dynamical system which is all life by thinking
of plants merely as «carbon sinks», somewhere merely to store CO2; from which the used to be known fact that CO2 was food for all living carbon life forms is practically unknown and now at the absurd reasoning from not knowing it, that it can defy gravity and stay removed and out
of reach from the carbon life forms which evolved from its
property of being available at ground level.