science corner archives - planet forward - 克罗地亚vs加拿大让球 //www.getitdoneaz.com/tag/science-corner/ inspiring stories to 2022年卡塔尔世界杯官网 tue, 07 mar 2023 19:39:50 +0000 en-us hourly 1 https://wordpress.org/?v=6.6.2 smaller particles could mean more efficient solar panels //www.getitdoneaz.com/story/smaller-particles-could-mean-more-efficient-solar-panels/ mon, 03 oct 2011 11:38:48 +0000 http://dpetrov.2create.studio/planet/wordpress/smaller-particles-could-mean-more-efficient-solar-panels/ studies done by mark lusk and colleagues at the colorado school of mines could significantly improve the efficiency of solar cells. their latest work describes how the size of light-absorbing particles–quantum dots–affects the particles’ ability to transfer energy to electrons to generate electricity.

the results are published in the april issue of the journal acs nano.

the advance provides evidence to support a controversial idea, called multiple-exciton generation (meg), which theorizes that it is possible for an electron that has absorbed light energy, called an exciton, to transfer that energy to more than one electron, resulting in more electricity from the same amount of absorbed light.

 

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robots to monitor oil spills where humans can’t reach //www.getitdoneaz.com/story/robots-to-monitor-oil-spills-where-humans-cant-reach/ mon, 26 sep 2011 11:27:51 +0000 http://dpetrov.2create.studio/planet/wordpress/robots-to-monitor-oil-spills-where-humans-cant-reach/ the university of minnesota’s center for distributed robotics is developing an amphibious robotic system, the aquapod, to monitor the impact of oil on swamps and marshland.

robust, highly mobile amphibious robots have the potential to assist researchers in quickly gathering critical data in situations where it is difficult or inconvenient for humans to perform these tasks.

scientific assessment of the ecological effects that result from oil spills is currently difficult to obtain. the long-term effects of an oil spill can remain hidden in widespread, hard to reach locations after visual evidence has vanished from sight. the compact, nimble aquapod is equipped with a suite of sensors to sample specimens and collect data that make it well suited to deploy into remote areas.  

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use of plug-in cars may increase due to smaller batteries //www.getitdoneaz.com/story/use-of-plug-in-cars-may-increase-due-to-smaller-batteries/ mon, 19 sep 2011 11:18:13 +0000 http://dpetrov.2create.studio/planet/wordpress/use-of-plug-in-cars-may-increase-due-to-smaller-batteries/ researchers determined that hybrid and plug-in vehicles with small battery packs could provide cost-effective reduction of greenhouse gas emissions.

the study, conducted at carnegie mellon university, determined that although small battery pack vehicles still use some gasoline, they offer greater greenhouse gas reductions per dollar spent than large pack vehicles.

the results suggest that the automakers should focus on vehicles with shorter electrical ranges, rather than those that can travel greater distances on a single charge because they have larger batteries.

results of this work could affect government and corporate strategy for vehicle electrification and reduction of automobile-based greenhouse gas emissions. the findings could also help provide more cost-effective options for consumers interested in hybrid and plug-in vehicles.

the government has set a target of 1 million plug-in vehicles on the road by 2015 and currently provides incentives for automakers to increase battery pack size. a longstanding goal has been to increase the range of electric vehicles.

the study’s results suggest, however, that hybrid electric vehicles and plug-in vehicles with small battery packs may be better solutions. larger battery packs are expensive and underutilized when drivers travel distances shorter than the range of their battery packs. this means that on many trips drivers are effectively carrying around expensive dead weight.

a given level of resources can provide more small-pack vehicles than large-pack vehicles. in addition, small-pack autos would grant drivers higher utilization at a lower cost–one they are more likely to recoup over the life of the vehicle. finally, smaller packs could achieve greater greenhouse reductions per tax dollar and consumer dollar, especially if parallel efforts reduce harmful emissions from the electricity grid.

 

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a new biofuel – mixed prairie grasses //www.getitdoneaz.com/story/a-new-biofuel-mixed-prairie-grasses/ mon, 12 sep 2011 10:54:17 +0000 http://dpetrov.2create.studio/planet/wordpress/a-new-biofuel-mixed-prairie-grasses/ mixed prairie grasses, grown on degraded land, may be a better source of biofuel than corn ethanol or soybean biodiesel. the study, led by david tilman at the university of minnesota, showed that fuel made from prairie grass yields 51 percent more energy per acre than ethanol from corn grown on fertile land. using prairie grass as a biofuel could be a vital renewable energy, as plants store more carbon in their roots and soil than is released by the fossil fuels used to grow and convert them into biofuels. this means that growing the prairie grasses provides an energy source and helps remove carbon from the atmosphere to help mitigate global climate change. another advantage that the prairie grasses hold over corn or soybean crops is that the grasses can grow on otherwise unusable, abandoned agricultural land. because of these uses, prairie grass biofuels represent an economically viable form of renewable energy that does not compete for the fertile soils used in food production. tilman’s results come from more than 10 years of research at the nsf-funded cedar creek long term ecological research site in minnesota.

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mammals seek higher elevations as climate warms //www.getitdoneaz.com/story/mammals-seek-higher-elevations-as-climate-warms/ mon, 05 sep 2011 09:00:02 +0000 http://dpetrov.2create.studio/planet/wordpress/mammals-seek-higher-elevations-as-climate-warms/ many species of mammals in yosemite national park have shifted their home ranges to higher elevations over the last hundred years. a research team led by craig moritz at the museum of vertebrate zoology of the university of california, berkeley, focused on the relationship between the change in elevation and global climate change. moritz and his team utilized the information provided by naturalist j.p. grinnell who had extensively mapped, surveyed and catalogued california’s wildlife at the beginning of the twentieth century.

grinnell’s ninety-year-old maps, photographs and field notes provided a basis for locating his original survey sites along a transect that passed from the san joaquin valley through yosemite to mono lake, and covered an elevation range from near sea level to more than 10,000 feet. within the park, moritz’s team returned to sites from the valley floor to the mountain crest and collected animals in many of the same locations as grinnell. moritz’s team relied on live-animal traps; whereas grinnell’s original survey used lethal traps to collect animals. mathematical checks showed that the different collection techniques were not a problem in successfully comparing the two sets of data.

moritz’s team used the new survey results and grinnell’s original data to compare the ranges of 28 species of mammals. on average, the mammals had moved their ranges upward about 500 meters at the same time that the temperature in the area increased 3 degrees celsius. the species that were originally found at lower elevations tended to expand their ranges to higher elevations. species originally at higher elevations tended to contract their ranges as their minimum elevations shifted even higher. this suggests that species are already trying to adapt to a warmer climate. it also suggests that species that have historically lived at higher elevations may not have anywhere to go in the future as mountain tops experience temperature changes. further warming would lead to the extinction of many species that are adapted to cold, alpine conditions.

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ocean circulation plays a major role in controlling greenhouse gas fluctuations //www.getitdoneaz.com/story/ocean-circulation-plays-a-major-role-in-controlling-greenhouse-gas-fluctuations/ mon, 29 aug 2011 09:00:54 +0000 http://dpetrov.2create.studio/planet/wordpress/ocean-circulation-plays-a-major-role-in-controlling-greenhouse-gas-fluctuations/ over time, warming events in greenland and the north atlantic were followed by gradual cooling. these changes correlate well with the concentration of nitrous oxide found in ice core samples. antarctic temperature variations, on the other hand, were smaller and more gradual. they correlate highly with carbon dioxide (co2) concentrations found in ice core samples. they also show warming during the greenland cold phase and cooling while the north atlantic was still warm.

scientists believe abrupt changes in the atlantic meridonial overturning circulation, the dominant north-south ocean circulation current in the atlantic, caused the observed abrupt climate changes in the north atlantic. climate modelers from oregon state university have modeled an episode of abrupt climate change that shows remarkable agreement with observed concentrations of greenhouse gases. they concluded that ocean circulation changes were primarily responsible for driving co2 and nitrous oxide fluctuations during glacial periods on millennial time scales.

ultimately, the model’s agreement with ice core sample evidence lends credibility to the hypothesis that ocean circulation modulates variations in greenhouse gases. this knowledge may also help scientists postulate a solution for climate change.

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engineering inspired by nature //www.getitdoneaz.com/story/engineering-inspired-by-nature/ mon, 22 aug 2011 09:00:12 +0000 http://dpetrov.2create.studio/planet/wordpress/engineering-inspired-by-nature/ a research team at george mason university is applying concepts from nature to the design of better buildings. their project includes developing a computer program that “evolves” new building designs based on genetic evolution. the program uses a system of models, procedures and algorithms to search for robust designs. applying this approach to several test design problems, the team has designed buildings that use less material and sway less in high winds, yet are just as strong as traditionally designed buildings.

researchers at texas a&m, missouri university of science and technology and the university of toronto have collaborated on another project that is also focused on learning from nature. the team is exploring how to capture the function of a natural system and use this to generate new design ideas. they have discovered that natural systems may be modeled functionally as if they were engineered systems. researchers can therefore design engineered systems by adapting solutions from natural systems. for example, they have studied the maneuverability of a housefly and captured the function and energy use of its wings, which can then be applied to improving the design of a micro-vehicle with flapping wings. however, in applying biologically-based design, it is critical to understand energy sources and flows.

by looking to nature for inspiration, engineers and designers can draw upon a multitude of design elements to solve design problems. both teams are discovering the underlying principles behind designs in nature and applying them to engineered designs with the goal of creating more environmentally friendly and energy efficient systems.

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new technique rapidly analyzes chemical composition of organic aerosols //www.getitdoneaz.com/story/new-technique-rapidly-analyzes-chemical-composition-of-organic-aerosols/ mon, 15 aug 2011 09:00:40 +0000 http://dpetrov.2create.studio/planet/wordpress/new-technique-rapidly-analyzes-chemical-composition-of-organic-aerosols/ researchers have developed a new way to monitor organic aerosols (oa)–a sizable class of atmospheric aerosols, which exert a strong impact on climate as well as human health. aerosols are tiny particles suspended in the air.

the new measurement technique may be useful for the detection of air toxins and also further our understanding of the health effects of atmospheric particles. insights gained could ultimately inform regulatory policy for managing air pollution and addressing its impact on global climate change.

a team of university of vermont researchers developed the technique, called near infrared laser desorption/ionization aerosol mass spectrometry, which can analyze trace levels of individual compounds within particles. the ability to measure oa chemical composition will lead to a better understanding of oa sources, as well as what controls their levels in the atmosphere.

aerosol mass spectrometry is widely used to analyze atmospheric aerosols, but usually cannot directly monitor the chemical composition of oa particles at their typical atmospheric concentrations. the nsf-funded innovation uses a low-energy, infrared laser to gently create ions of the organic compounds, keeping them intact and thereby giving results that are easier to interpret. the technique has demonstrated unprecedented sensitivity in detecting individual chemical compounds. this allows for analysis of the changes in aerosol composition as they occur in the atmosphere.

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new climate mode of variability links ocean climate and ecosystem change //www.getitdoneaz.com/story/new-climate-mode-of-variability-links-ocean-climate-and-ecosystem-change/ mon, 25 jul 2011 09:00:55 +0000 http://dpetrov.2create.studio/planet/wordpress/new-climate-mode-of-variability-links-ocean-climate-and-ecosystem-change/ decadal fluctuations in ocean salinity, nutrients, chlorophyll, a variety of zooplankton species, and fish stocks in the northeast pacific have been unexplained for many years. they are often poorly correlated with the most widely used indicator of large-scale climate variability in the region: the pacific decadal oscillation (pdo). researchers emanuele di lorenzo of the georgia institute of technology and niklas schneider of the university of hawaii recently defined a new pattern of climate change—the north pacific gyre oscillation (npgo)—and showed that its variability is significantly correlated with the previously unexplained fluctuations of salinity, nutrients, and chlorophyll.

fluctuations in the npgo are driven by the same fundamental processes that control salinity and nutrient concentrations. in the california current system, the npgo particularly reflects changes in the winds that cause coastal upwelling, the process by which subsurface cold water that is rich in nutrients is brought up to the surface. these results strongly support the use of the npgo as the primary indicator of upwelling strength and nutrient fluxes, and, therefore, the potential for ecosystem change in the california current system region. changes in nutrient fluxes drive fluctuations in modeled chlorophyll concentration—an indicator of phytoplankton concentration—that are highly correlated to observed chlorophyll. the model simulations support the hypothesis that variations in phytoplankton biomass in the california current system region are primarily driven by changes in wind-driven upwelling correlated with the npgo. the npgo thus provides a strong indicator of changes in the mechanisms driving oceanic ecosystem dynamics.

this “bottom-up” forcing is consistent with previous fish catch data and satellite-derived chlorophyll concentration, and underscores the need to better understand the influences of physically forced nutrient fluxes on higher food-chain levels in the ocean. the researchers have also shown that the npgo pattern extends beyond the north pacific and is part of a global mode of climate variability that is evident in global sea-level trends and sea surface temperature. the amplification of the npgo variability found in observations and in model simulations of global warming scenarios implies that the npgo may play an increasingly important role in forcing global-scale decadal changes in marine ecosystems.

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