Most WASP - 12b
system parameter values from this work are consistent with values from previous studies, but have $ \ sim $ 40 - 50 % smaller uncertainties.
Not exact matches
For given
values of
system parameters (temperature, reactant concentration, etc.), each oscillation will be a duplicate of the previous one, once an initial «warm - up» period is over.
This relates to the sensitive dependence of non-linear
systems to the initial
values of its dynamical
parameters (often referred as the «butterfly effect,» a phrase coined by the meteorologist E.N. Lorenz).7 In such a
system, even the smallest change (or uncertainty) of initial
values of a non-linear or dynamically coupled
system, show long - term divergence of its phase - map trajectories, leading to the formation of a basin of so - called «strange attractors.»
We don't «love» using an additional
parameter in our approach to researching betting
systems — but this approach seems to make sense and is another contrarian approach that can help investors identify «
value.»
Murali Haran, a professor in the department of statistics at Penn State University; Won Chang, an assistant professor in the department of mathematical sciences at the University of Cincinnati; Klaus Keller, a professor in the department of geosciences and director of sustainable climate risk management at Penn State University; Rob Nicholas, a research associate at Earth and Environmental
Systems Institute at Penn State University; and David Pollard, a senior scientist at Earth and Environmental
Systems Institute at Penn State University detail how
parameters and initial
values drive an ice sheet model, whose output describes the behavior of the ice sheet through time.
The
system automatically weeds out all the
parameter values that lead to unprintable or unstable designs, so the sliders are restricted to valid designs.
If, however, a particularly sharp - eyed user wanted a
value for a
parameter that fell between two of the samples stored in the database, the
system can call up the CAD program, calculate the associated geometry, and then run tests on it.
Accurate
values for these
parameters can be obtained from the gravitational interaction between stars in multiple
systems or from asteroseismology.
The two objects [Sedna and 2012 VP113] have similar
values for one of their orbital
parameters: the angle [w] between the point of perihelion and where the orbit crosses the plane of the Solar
System [from south to north].
If a Reading
System supports a feature defined in this section, it must return a true
value both when queried without the version
parameter set and when that
parameter is set to the
value «1.0».
If a Reading
System supports a feature defined in this specification, it must ignore any supplied version
parameter and return a true
value.
How do they come to agreements despite differing
value systems,
parameters, and life - perspectives?
These
parameters are guesses, because there just isn't enough understanding of the complex and chaotic climate
system to parse out their different
values, or to even be clear about cause and effect in certain processes (like cloud formation).
Recall that in the case of the original Lorenz
system of 1963, chaotic response is not obtained for all
values of the
parameters.
System parameters will typically accelerate towards extreme values, which may damage or destroy the system, or may end with the system «latched» into a new stable
System parameters will typically accelerate towards extreme
values, which may damage or destroy the
system, or may end with the system «latched» into a new stable
system, or may end with the
system «latched» into a new stable
system «latched» into a new stable state.
By adjusting the
values of those
parameters found to be influential through numerical experiments and simulations, short - term and long - term policy recommendations that can keep the
system within optimum levels or sustainable development targets (e.g., Millennium Development Goals or the Post-2015 Development Agenda) can be designed and tested.
The
parameters controlling the
system can be transparently combined into a single control, and there exists a critical
value of this control from which a small perturbation leads to a qualitative change in a crucial feature of the
system, after some observation time.
Highlights ASE Certified Automotive Master Technician ASE Advanced Engine Performance Specialist Certification High voltage ignition scope diagnostics Ionic ignition pulse signal diagnostics and repair Oscilloscope testing of sensor signals to identify voltage irregularities Experienced with fiber optics communications and network bussing
systems Diagnose and repair solid - state computer board malfunctions Update and correct vehicle software problems Modify engine operating
parameters using software tools Rebuild engine cylinder heads using complex variable cam gears and
value lift drives Overhaul transmission valve bodies and internal electronics Experience Master Technician 3/1/2014?
Defining Transaction Types,
System Parameters, Order Types, Standard
Value Rule Set, Banks, Profile Options, Document Sequencing, Memo lines, Responsibilities and Batch Sourcing