Sentences with phrase «create study material»
They can create study material like a presentation to share with their peers.
http://www.gc-solutions.net/
Once I get this site where I want it, my next endeavor is to create some study materials that can be given to you immediately.
Not exact matches
The concept was simple: create a universally accessible studying environment where students could share materials, thoughts on courses and professors and even tools to create flashcards and plan schedules.
In order to create a really strong USP, you need to study your competitors» ads, websites, and marketing materials, and find your opportunity to stand out.
Science is the study of the created order in its material / formal relationships up to and including the bodily existence of Man.
Chaudhry added: «There has been hate material that has creeped into our textbooks that is biased towards different faiths, and that all creates an environment of religious intolerance because the newer generation that is studying those textbooks, if they don't even recognise the presence of other minorities, how will they even respect those people?»
Importantly, the study found that only teachers with high knowledge and skills for science — not literacy or math — created quality scientific opportunities for students, such as providing science materials and engaging children in science experiences in the classroom.
Researchers at the Center for Engineering MechanoBiology (CEMB), an NSF Science and Technology Center at the University of Pennsylvania, study plants like this Arabidopsis thaliana to learn how molecules, cells and tissues integrate mechanics within plant and animal biology, with the aim of creating new materials, biomedical therapies and agricultural technologies.
In a new study, published today in the journal Advanced Functional Materials, researchers used a combination of 3D imaging and 3D printing techniques to create a custom silicone guide implanted with biochemical cues to help nerve regeneration.
The laser shines on a sample of the material under study; light scatters off the sample and creates a two - dimensional pattern of interference between the laser beam and the scattered light — a hologram — which a video camera records.
The New Calculus Other physicists, meanwhile, are employing string theory methodologies in their study of extreme matter states — from the intensely hot plasmas produced in particle colliders to materials created in laboratories at temperatures close to absolute zero.
Supported by a U.S. Department of Defense grant, the National Institutes of Health and the American Heart Association, Barker and his team have created what they call platelet - like particles, or PLPs, according to a study published in Nature Materials.
In a two - year Laboratory Directed Research and Development project, Nenoff, Brady and their research team created special filters, pellets and powders made of hydrotalcite to study the material's ability to filter for silica.
His research focus at the UCL Institute of Making is animate matter, innovative manufacturing, and sensoaesthetic materials — the application of scientific methodology to the aesthetic, sensual, and emotional side of materials, an area of study he helped create.
In a new study due this week in the Early Edition of the Proceedings of the National Academy of Sciences (PNAS), Rice University theoretical physicist Qimiao Si and colleagues at the Rice Center for Quantum Materials in Houston and the Vienna University of Technology in Austria make predictions that could help experimental physicists create what the authors have coined a «Weyl - Kondo semimetal,» a quantum material with an assorted collection of properties seen in disparate materials like topological insulators, heavy fermion metals and high - temperature supercoMaterials in Houston and the Vienna University of Technology in Austria make predictions that could help experimental physicists create what the authors have coined a «Weyl - Kondo semimetal,» a quantum material with an assorted collection of properties seen in disparate materials like topological insulators, heavy fermion metals and high - temperature supercomaterials like topological insulators, heavy fermion metals and high - temperature superconductors.
Other topic areas include studying materials that form in temperatures above 2000 °C, using quantum physics to create better computers, and studying how microbial communities may help host organisms respond to stress.
«This rich assemblage of materials in bronze, silver, lead and iron, along with the abundant ceramics and remarkable evidence of organic remains, create an unparalleled opportunity for the study of culture, religion and daily life in Chianti and the surrounding region,» she said of the well excavation that began in 2011, which is part of a larger dig encompassing the entire Cetamura settlement.
Collins says he's also excited about other teams producing paleoproteomic studies on cave art: The research can help us understand how early hominins created paints by adding binding agents to ochre and other material, which hints at their cognitive process.
Physicists studying high - temperature superconductivity have tended to discount an idea that has hovered at the fringes of the field for several years — that charges percolate back and forth through these materials in a series of stripes, a few atoms wide, creating a landscape that helps current flow effortlessly through the material in all directions.
«In our study, we make use of the fact that a heat current passing through a magnetic material creates a separation of electron spins.
In the laboratory, we're using diamond anvils to create high pressures and temperatures, to study the effects of materials in the core.
Now, researchers led by Xiaoyu «Rayne» Zheng, an assistant professor of mechanical engineering at Virginia Tech have published a study in the journal Nature Materials that describes a new process to create lightweight, strong and super elastic 3 - D printed metallic nanostructured materials with unprecedented scalability, a full seven orders of magnitude control of arbitrary 3 - D archiMaterials that describes a new process to create lightweight, strong and super elastic 3 - D printed metallic nanostructured materials with unprecedented scalability, a full seven orders of magnitude control of arbitrary 3 - D archimaterials with unprecedented scalability, a full seven orders of magnitude control of arbitrary 3 - D architectures.
One of the great opportunities this study creates is the ability to produce multi-functional inorganic materials such as metals and ceramics to explore photonic and energy harvesting properties in these new materials
«The mechanical shuffling that occurs as dislocations pop up and over those atomic bumps creates a domino effect of more dislocations,» said study co-author Daryl Chrzan, a professor of materials science and engineering who led the theoretical effort in the project.
Feng Wang, a condensed matter physicist with Berkeley Lab's Materials Sciences Division and UC Berkeley's Physics Department, as well as an investigator for the Kavli Energy NanoSciences Institute at Berkeley, led a study in which photo - induced doping of GBN heterostructures was used to create p - n junctions and other useful doping profiles while preserving the material's remarkably high electron mobility.
In topological insulators and the new class of materials the Princeton researchers studied, the unique properties of the atoms combine to create quantum effects that coax electrons into acting similar to a light wave instead of like individual particles.
«These origami can be customized for use in everything from studying cell behavior to creating templates for the nanofabrication of electronic components,» says Dr. Thom LaBean, an associate professor of materials science and engineering at NC State and senior author of a paper describing the work.
In a study in the journal Nature researchers created a «pseudo gap,» in which electrons in superconducting materials line up just before flowing resistance - free.
In further studies, Kumar and his colleagues are developing technology to switch spin currents on and off in the materials, with the ultimate goal of creating a spin transistor.
This is a scanning tunneling microscopy image of a 2 - D material created and studied at Berkeley Lab's Advanced Light Source (orange, background).
«Surprisingly, we found that we could create all sorts of biogenic - like materials that have the right shape, structure and chemistry to match natural materials we assume are produced biologically,» said Associate Professor Alexis Templeton of CU Boulder's Department of Geological Sciences and senior author of the new study.
John Evans, DMD, PhD, a professor in NYU Dentistry's Department of Basic Science and Craniofacial Biology, oversees a research group focusing on the study of proteins that modulate the formation of biominerals, which in turn create new composite materials with unique properties, such as increased fracture and puncture resistances.
Stanton A. Glantz, Ph.D., of the University of California, San Francisco, and coauthors examined internal documents from the Sugar Research Foundation (SRF), which later evolved into the Sugar Association, historical reports and other material to create a chronological case study.
Ren's group isn't the first to study the new material, which has not been named but is referred to in the Nano Energy paper as simply MgAgSb - based materials, using the chemical names for the elements used to create it.
To study the phenomena, the team analyzed data from a laboratory fault system that contains fault gouge, the ground - up material created by the stone blocks sliding past one another.
Feng Wang, a condensed matter physicist with Berkeley Lab's Materials Sciences Division and UC Berkeley's Physics Department, as well as an investigator for the Kavli Energy NanoSciences Institute at Berkeley, led a study in which photo - induced doping of GBN heterostructures was used to create p — n junctions and other useful doping profiles while preserving the material's remarkably high electron mobility.
Sergei Kalinin (Oak Ridge National Laboratory)-- Materials and nanoscientist Dr. Kalinin creates novel technologies to study and control the functionality of nanomaterials by combining imaging, big data and materialMaterials and nanoscientist Dr. Kalinin creates novel technologies to study and control the functionality of nanomaterials by combining imaging, big data and materialsmaterials theory.
This phenomenon has been a major field of study in both the physical and mathematical communities, providing insight into how simple atoms create complex materials.
Efforts to create better materials with predictable surface properties have led scientists to study the electrostatic forces that attract particulates to surface coatings.
In the second study, a team led by Shahin Rafii at Weill Cornell Medicine in New York City used adult mouse cells as their starting material, and then guided them through several steps — including exposure to some of the same gene - activating proteins — to create mature blood stem cells in a petri dish.
«By understanding the fundamentals of cluster synthesis through thermochemistry, we may control and exploit these processes to create superior materials for a variety of energy - related applications,» said Dr. Grant Johnson, a PNNL physical chemist who worked on the study.
The MIT Study found that reprocessing and recycling plutonium — which creates weapon - usable material and some of the most radioactive waste in the world — is also uneconomic and likely to remain so for decades to come.
A study found that the beaver is playing an increasing part in climate change because the dams they build for shelter create shallow, stagnant ponds of water which allow biological material to build up on the bottom of the river.
«This extreme shaking creates a whole bunch of new places where these particles and polymers can meet each other,» said study co-author Joe Forth, a postdoctoral fellow at Berkeley Lab's Materials Sciences Division.
«By understanding the fundamentals of cluster synthesis, we may control and exploit them to create these superior materials,» said Dr. Grant Johnson, a physical chemist at PNNL who led the study.
NuSTAR, a high - energy X-ray observatory, has created the first map of radioactive material in a supernova remnant called Cassiopeia A, or Cas A, to reveal how shock waves likely tear massive dying stars apart, the researchers said in a study, published in the Feb. 20 issue of Nature.
Methods: In a relatively new approach, the scientists used a single blast of low - level radiation to create damage, or atomic defects, in a silicon - based material so they could study the movement of both the electrons and silicon ions.
Luckily, there was a lot of material to study about the character, so I didn't feel like I needed to create him out of thin air.
The French artist pulls from his studies in philosophy and epistemology to create swirling abstract paintings and mixed - media sculptures assembled from found materials that touch on the basis of knowledge and rationality in the search for ultimate truth.
Then, the thus prepared virtual environment is transplanted to a course created in Geenio, where it is prepended with introductory text and videos, and accompanied with other relevant study materials.