Sentences with phrase «how basic science research»

They were particularly interested in how basic science research could be applied and adapted in medical settings, he said.

Dan Wiseman's career exemplifies how integrating basic research and clinical science benefits both researchers and patients.

Scholnick's lab's relationship with local fishermen is just one example of how science and basic research can touch people's everyday lives, a message Scholnick wishes to convey beyond the scientific community.

Our Global Science Scorecard ranks nations as to how productive they are in science — not only on the quality and quantity of basic research but also on their ability to project that research into the real world, where it can affect people'sScience Scorecard ranks nations as to how productive they are in science — not only on the quality and quantity of basic research but also on their ability to project that research into the real world, where it can affect people'sscience — not only on the quality and quantity of basic research but also on their ability to project that research into the real world, where it can affect people's lives.

So how are these huge shifts in the research firmament — multidisciplinarity, translational research, and commercialization — affecting one of the largest funders of basic biomedical science in the country, Cancer Reseresearch firmament — multidisciplinarity, translational research, and commercialization — affecting one of the largest funders of basic biomedical science in the country, Cancer Reseresearch, and commercialization — affecting one of the largest funders of basic biomedical science in the country, Cancer ResearchResearch UK?

«This work is an example of how integrating basic science and clinical care may reveal privileged opportunities for biomedical research,» said Matthew O. Hebb, M.D., Ph.D., FRCSC, a researcher involved in the work from the Departments of Clinical Neurological Sciences (Neurosurgery), Oncology and Otolaryngology at the University of Western Ontario in Ontario, Canada.

Traditionally very strong in basic research, German universities are currently debating how best to incorporate better training for young scientists, the commercialization of both research and education, and how to remain competitive in the increasingly global world of science.

The story of the disorder, she noted, is also the story of how the honeybee genome went from basic research to an applied science in less than a decade.

In the October 2012 issue, we publish our Global Science Scorecard, a ranking of nations on how well they do science — not only on the quality and quantity of basic research but also on their ability to project that research into the real world, where it can affect people's lives.The United States comes out on top, by a wide margin, followed by Germany, China, Japan, the U.K., France, Canada, South Korea, Italy andScience Scorecard, a ranking of nations on how well they do science — not only on the quality and quantity of basic research but also on their ability to project that research into the real world, where it can affect people's lives.The United States comes out on top, by a wide margin, followed by Germany, China, Japan, the U.K., France, Canada, South Korea, Italy andscience — not only on the quality and quantity of basic research but also on their ability to project that research into the real world, where it can affect people's lives.The United States comes out on top, by a wide margin, followed by Germany, China, Japan, the U.K., France, Canada, South Korea, Italy and Spain.

While it's very important to tell these stories of how past investments in research have paid off in today's technologies, we've not spent enough time telling how research cutbacks today will affect the science of tomorrow,» said Marc Kastner, president of the Science Philanthropy Alliance and chair of the «The Future Postponed 2.0: Why Declining Investment in Basic Research Threatens a U.S. Innovation Deficit»research have paid off in today's technologies, we've not spent enough time telling how research cutbacks today will affect the science of tomorrow,» said Marc Kastner, president of the Science Philanthropy Alliance and chair of the «The Future Postponed 2.0: Why Declining Investment in Basic Research Threatens a U.S. Innovation Deficit»research cutbacks today will affect the science of tomorrow,» said Marc Kastner, president of the Science Philanthropy Alliance and chair of the «The Future Postponed 2.0: Why Declining Investment in Basic Research Threatens a U.S. Innovation Deficit» science of tomorrow,» said Marc Kastner, president of the Science Philanthropy Alliance and chair of the «The Future Postponed 2.0: Why Declining Investment in Basic Research Threatens a U.S. Innovation Deficit» Science Philanthropy Alliance and chair of the «The Future Postponed 2.0: Why Declining Investment in Basic Research Threatens a U.S. Innovation Deficit»Research Threatens a U.S. Innovation Deficit» report.

The Center for RNA Research at the Institute for Basic Science has succeeded in revealing, for the first time, the mechanism of how miRNAs, which control gene expression, are regulated in the early embryonic stage.

«This study shows how translational research using basic science techniques in animal models can elucidate the underlying basis of human emotions and reasons for mental disorders, thereby pointing the way for treatment development,» says Jeffrey Lieberman, MD, Lawrence C. Kolb Professor and Chair of Psychiatry at CUIMC.

Methods: At the CME, an Energy Frontier Research Center funded by the U.S. Department of Energy Office of Science's Basic Energy Sciences, researchers examine how to control proton movement in catalysis.

AMHERST, Mass. — Cognitive neuroscience researcher Joonkoo Park at the University of Massachusetts Amherst, who recently received a five - year, $ 751,000 faculty early career development (CAREER) grant from the National Science Foundation (NSF) to address basic research questions about how our brains process number and magnitude and how such processes give rise to more complex mathematical thinking, has co-authored a paper that reports this week where in the brain numerical quantity evaluation is processed.

Year 4 Science Assessments Objectives covered: Recognise that living things can be grouped in a variety of ways Explore and use classification keys to help group, identify and name a variety of living things in their local and wider environment Recognise that environments can change and that this can sometimes pose dangers to living things Describe the simple functions of the basic parts of the digestive system in humans Identify the different types of teeth in humans and their simple functions Construct and interpret a variety of food chains, identifying producers, predators and prey Compare and group materials together, according to whether they are solids, liquids or gases Observe that some materials change state when they are heated or cooled, and measure or research the temperature at which this happens in degrees Celsius (°C) Identify the part played by evaporation and condensation in the water cycle and associate the rate of evaporation with temperature Identify how sounds are made, associating some of them with something vibrating Recognise that vibrations from sounds travel through a medium to the ear Find patterns between the pitch of a sound and features of the object that produced it Find patterns between the volume of a sound and the strength of the vibrations that produced it Recognise that sounds get fainter as the distance from the sound source increases Identify common appliances that run on electricity Construct a simple series electrical circuit, identifying and naming its basic parts, including cells, wires, bulbs, switches and buzzers Identify whether or not a lamp will light in a simple series circuit, based on whether or not the lamp is part of a complete loop with a battery Recognise that a switch opens and closes a circuit and associate this with whether or not a lamp lights in a simple series circuit Recognise some common conductors and insulators, and associate metals with being good conductors

Just as a reminder of how un-invested the United States is in energy inquiry, I can't resist republishing a graph that has become an icon here on Dot Earth — a portrait of half a century of federal investment in basic civilian research and development (provided by Kei Koizumi of the Office of Science and Technology Policy):