Sentences with phrase «modeling the material using»

«We are modeling the material using a realistic structure with defects and disorder rather than some idealized material.»

Throughout this press release or accompanying materials, the Company may use the term «projection» or similar terms or expressions, or indicate that it has «modeled» certain future scenarios.

The straightforward study simply invited 39 adults to make art for 45 minutes in any way they pleased, using simple materials like markers, modeling clay and collage supplies.

These batteries will be wider and longer, holding more raw materials inside, and would be used in Tesla's Model 3 electric car.

The Electronic Product Environmental Assessment Tool, or EPEAT, which measures computers against a list of 27 sustainability criteria — including the use of mercury - free materials — gives this model its highest mark, a gold rating.

For the period from 1914 to the present, Blumhofer switches to the developmental model used by William Menzies in an earlier work, Anointed to Serve: The Story of the Assemblies of God (1971) She illustrates many of the points with fresh anecdotal material and brings into greater focus certain aspects of the history, such as the denomination's response to the New Order of the Latter Rain.

«When the physical model of wave - motion in a material medium had to be abandoned in physics», writes Mary Hesse, «it left its traces in the kind of mathematics which was used, for this was still a mathematical language derived from the wave equations of fluid motion, and so, for the mathematician, it carried some of the imaginative associations of the original physical picture.»

If this model of self - interested behavior oriented to material gain were used only in one academic discipline and successfully countered by models used in other disciplines, the consequences might not be culturally serious.

I found this article about these guys at the Tel Aviv University that made the genome of the model of wheat, the same grain I used and just made a light bulb light up and I just contacted them and within a few days I had several kilograms of this material, we just started to process and eventually is this beer that we're drinking.

The use of this model means the implementation of reusing, repairing, refurbishing and recycling existing products and materials.

In sessions where learning activities were modelled, materials were used that the fathers could use themselves at home.

I like the idea of small manufacturing arms, they seem analogous to the notion of microformats in that they bridge the gap between materials and the end user in small ways which work for a particular use case, audience or need rather than the Model T Ford, Taylorist approach.

This model is consisted of UV treated materials making it good solution to outdoor use, so the sun won't affect the color of the gate.

Both the Health Belief Model and Social Cognitive Theory were used to provide a theoretical foundation and process support for the design of the intervention material.

We are big lovers of the simple, yet wonderful, modelling material salt dough, and have used to to make hand and footprint keepsakes, christmas ornaments, letters of the alphabet and so many more things too!

Use DAS Modelling material, some colorful craft sticks and some acrylic paints and your child will keep engrossed for ages giving this cute hedgehog his spikes!

A quick and easy growing project for kids to do — we like using our junk modelling box for many different project and a lot of the materials are perfect for using in the garden as they will easily compost.

The CLTS model, which encourages communities to use local materials to construct latrines was adopted in 2015 and triggered the certification of 15 communities as open defecation free, with 42 more being certified in 2016.

«There is ongoing work to review these issues and identify, if possible, a legal model which would provide the necessary safeguards to allow intercept material to be used as evidence,» she added.

The researchers observed a good correlation between the lattice properties determined using the model and the lithium ion conductor material's conductivity.

BOX 23, A-15-4; 30219212 / 734979 SAPA Requests for Translations of SAPA materials, 1966 - 1968 Prerequisites for SAPA The Psychological Basis of SAPA, 1965 Requests for SAPA to be Used in Canada, 1966 - 1968 Requests for Assistance with Inservice programs, 1967 - 1968 Schools Using SAPA, 1966 - 1968 Speakers on SAPA for NSTA and Other Meetings, 1968 Suggestions for Revisions of Part 4, 1967 - 1968 Suggestions for Revisions of the Commentary, 1967 - 1968 Summer Institutes for SAPA, Locations, 1968 Summer Institutes for SAPA, Announcement Forms, 1968 Inservice Programs, 1968 - 1969 Consultant Recommendations, 1967 - 1968 Inquiries About Films, 1968 Inquiries About Kits, 1967 - 1968 Inquiries About Evaluations, 1968 Tryout Teacher List, 1967 - 1968 Tryout Centers, 1967 - 1968 Tryout Feedback Forms, 1967 - 1968 Tryout Center Coordinators, 1967 - 1968 Cancelled Tryout Centers, 1967 - 1968 Volunteer Teachers for Parts F & G, 1967 - 1968 List of Teachers for Tryout Centers, 1963 - 1966 Tucson, AZ, Dr. Ed McCullough, 1964 - 1968 Tallahassee, FL, Mr. VanPierce, 1964 - 1968 Chicago, IL, University of Chicago, Miss Illa Podendorf, 1965 - 1969 Monmouth, IL, Professor David Allison, 1964 - 1968 Overland Park, KS, Mr. R. Scott Irwin and Mrs. John Muller, 1964 - 1968 Baltimore, MD, Mr. Daniel Rochowiak, 1964 - 1968 Kern County, CA, Mr. Dale Easter and Mr. Edward Price, 1964 - 1967 Philadelphia, PA, Mrs. Margaret Efraemson, 1968 Austin, TX, Dr. David Butts, 1968 Seattle, WA, Mrs. Louisa Crook, 1968 Oshkosh, WI, Dr. Robert White, 1968 John R. Mayer, personal correspondence, 1966 - 1969 Teacher Response Sheets, 1966 - 1967 Overland, KS Oshkosh, WI Monmouth, IL Baltimore, MD Teacher Response Checklist SAPA Feedback, 1965 - 1966 Using Time Space Relations Communicating Observing Formulating Models Defining Operationally Interpreting Data Classifying (2 Folders) Measuring Inferring Predicting Formulating Hypothesis Controlling Variables Experimenting Using Numbers SAPA Response Sheets for Competency Measures, 1966

The model derives from a general lattice field theory, which is typically used to describe the quantum behavior of electrons in magnetic and electronic materials.

«When used in conjunction with forecasted data, the model predictions could be useful for focusing both surveillance efforts, and the pre-positioning of material and equipment in areas and periods of particularly high risk.

The new technique could provide a much - needed experimental validation of frequently used computational models, as well as a means of investigating the effect of new battery materials and additives on lithium metal plating.

The CRaTER observations have validated the models and the ground - based measurements, meaning that lightweight shielding materials could safely be used for long missions, provided their structural properties can be made adequate to withstand the rigors of spaceflight.

Using machine learning to analyze and model existing crystal structures, the PLMF method is able to predict the properties of new materials proposed by scientists and engineers.

Now, a team of Italian physicists has developed a predictive theoretical model for heat flux in these materials, using atom - scale calculations.

By developing new aerodynamic computer models and using modern materials, the company that originated zeppelins has returned them to the skies over Europe

The model will also help researchers design whether a material will fail with a sudden fracture, like ceramics, or slowly, like ductile metals, by switching components, using contrasting platelets or changing the architecture.

«We showed that the model accurately represents what we measured in cities, so now we can use it to conduct sensitivity studies, where only a single variable — the percentage of the city covered by impervious versus pervious materials — changes,» he said.

«This is quite surprising because glasses and heavily irradiated materials typically exhibit the same density, so that glasses are often used as models to simulate the effect of the exposure to radiations on materials.»

A team of researchers at Access, a research centre associated with the Technical University of Aachen in Germany, has developed a «common language» for modelling and simulation tools used in studying the microstructures of materials.

Using computer modeling to interpret images from NASA's Galileo satellite, Pappalardo and Barr demonstrated that acnelike markings on Europa's surface are probably bits of ice containing minerals such as chloride salts and sulfuric acid, which lower the melting point so the material can rise from deep below.

To use such a model, a sound engineer reconstructs a three - dimensional model of the room on a computer, giving details of all the materials used.

While mechanical testing is used to quantify the material properties of the urinary bladder wall, the development of models associated with the bladder has the potential to simulate the mechanical behavior observed experimentally.

In a paper published in Advanced Functional Materials, the research team reports on the new material's key properties, many of which can be finely tuned, and on the results of using the material in preclinical models of wound healing.

They demonstrated its the material's potential by using it to replicate the biological motion of the heart, and also developed a matching 3D computer model of it, as reported in Advanced Materials.

Scientists can accurately predict the thermal conductivity of many crystalline materials using expressions based on the widely - used «phonon gas model.»

Further investigation in pre-clinical models will be needed to test the material's properties and safety before approval for use in humans.

Michael Barnhardt, a senior research scientist at NASA ARC and principal investigator of the Entry Systems Modeling Project, said the X-ray work opens a new window into the structure and strength properties of materials at the microscopic scale, and expands the tools and processes NASA uses to «test drive» spacecraft materials before launch.

A few structures, such as breakwaters built of rock, can be studied using miniature versions, but materials such as sand, clay, and grass behave differently in small - scale models than in the real world, van Gent says.

Materials researchers at the Georgia Institute of Technology initially came across the nano cage as a potentially powerful approach, and Mavrikakis» group used its quantum mechanical modeling expertise to synthesize cages with a tiny amount of platinum.

The new model uses a dielectric material rather than a metal for the nanoantennas, a change which greatly improves its efficiency and, combined with a new design approach, enables operation over a broad range of wavelengths.

The model is based on intrinsic electronic characteristics of materials used as battery anodes.

Although computer models of archaeological sites are ideal software tools for managing spatially referenced data and commonly used to yield insights which contribute to the protection of heritage materials, some scientists question their credibility, calling for these long - term trends be «ground truthed» in order to ensure that calculated rates of change reflect observed phenomena «in the field».

A model lithium layered oxide is used to probe the enhanced charge storage capacity of this family of materials.

These love - hate configurations of atoms could be used to test quantum computers and model high - temperature superconductors, materials that transmit electricity with near - perfect efficiency.

They have developed a set of tools that can be used to make accurate, rapid assessments of proposed materials, using a series of relatively simple lab tests combined with computer modeling of the physical properties of the material itself, as well as additional modeling based on a statistical method known as Bayesian inference.

In 2006, physicist Alexei Kitaev developed a solvable theoretical model describing how topologically protected quantum computations could be achieved in a material using quantum spin liquids, or QSLs.

Using computer models and distinctive radiation seen from a previous supernova explosion, theorists had already suspected that turbulence at the center of a supernova would propel bullets of iron - rich material through a star's outer layers.