Introduction & Purpose
Knowledge update and Industry update at Skyline University College (SUC) is an online platform for communicating knowledge with SUC stakeholders, industry, and the outside world about the current trends of business development, technology, and social changes. The platform helps in branding SUC as a leading institution of updated knowledge base and in encouraging faculties, students, and others to create and contribute under different streams of domain and application. The platform also acts as a catalyst for learning and sharing knowledge in various areas.
Super User
From Different Corners
Washington, Sep 26 (IANS) Scientist have developed a set of five instruments that can potentially advance NASAs understanding of wind and weather conditions on the surface of Mars that can help ascertain the planet's habitability.
The US space agency sends rovers to the surface of Mars to photograph the landscape and operate scientific experiments to understand the habitat for humans or other kinds of life.
One of those future rover missions may host the Martian Aqueous Habitat Reconnaissance Suite (MAHRS), a set of five instruments that can take surface measurements in the search for habitable environments, NASA said.
Developed at NASA Glenn Research Centre in partnership with the University of Michigan, MAHRS is specifically focused on searching for wet brine environments in the shallow subsurface of Mars.
"Brine environments are where you would look for life," said Project Manager Dan Vento of NASA.
"Any water that exists today on Mars would likely be in the form of a brine if is in a liquid state," he added.
The MAHRS research hardware includes an optical microscope to study the size and characteristics of settling dust on Mars.
"The interesting feature about the microscope, is that the electronics architecture can support a camera lens or hyperspectral sensor depending on the scientific goals of the mission," Norman Prokop from NASA Glenn Research Centre said.
Mounted to the microscope, a radiometre measures the amount of solar energy absorbed at the surface to study the amount of dust in the Martian atmosphere.
Less energy making it to the surface means more dust in the atmosphere is absorbing the solar energy.
A saltation probe, which would hang vertically off the bottom of a rover, measures the impact of soil and dust swirling on the Martian surface.
Because it is close to the ground, it can measure the impact, mass and velocity of soil as it hits the probe, giving researchers an indication of wind energy and soil movement.
The scientists also developed a soil wetness sensor, which measures water content on the surface and detects the formation of liquid brine.
And finally, Michigan engineers are testing an electric field sensor to measure electrical charges in the atmosphere caused by airborne dust, NASA said. As it sits and spins on a rover arm, it will measure weather patterns and indicate the level of erosion on Mars.
As NASA seeks to develop more sophisticated scientific devices for solar system exploration, this integrated suite of instruments can potentially advance understanding of wind and weather conditions on the surface of Mars and the implications for habitability.
NASA's Mars rover missions advance understanding about the Red Planet and serves in preparation for planned human-crew missions to Mars beginning in the 2030s.
Super User
Lifestyle and Trends
London, Sep 28 (IANS) Most people are responding to messages, looking at social media notifications, reading news or replying to office emails in middle of the night which has significantly disrupted their sleep patterns, a new study has warned.
The study "Global Mobile Consumer Survey 2016" conducted by global consultancy firm Deloitte found that almost half of 18 to 24-year-olds check their phones in the middle of the night.
The study, involving 4,000 people in Britain, revealed that if users do not wake up to check their texts, they take time to scroll through their notifications right before bed.
Ten per cent of users also like to check their smartphone first thing in the morning, Fortune reported, quoting the study.
Less than a quarter of smartphone users are unplugging at least an hour before they go to sleep.
"Nearly 27 per cent of smartphones include a fingerprint reader, of which 76 per cent are used while 31 per cent of smartphone users make no traditional voice calls in a given week. This contrasts with a quarter in 2015 and just 4 per cent in 2012," the findings showed.
The majority of survey participants have downloaded 20 or fewer apps. By mid-2016, almost two-thirds of British adults had access to a tablet, but penetration growth had slowed down.
Super User
Lifestyle and Trends
New York, Sep 26 (IANS) Although garlic is good for health, many people tend to stay away from it due to the stingy bad breath it produces. Now a new study has revealed that consuming raw apple, mint or lettuce right after garlic may help reduce the pungent smell.
Garlic breath is caused by the volatiles -- including diallyl disulfide, allyl mercaptan, allyl methyl disulfide, and allyl methyl sulfide -- present in garlic, said the researchers from the Ohio State University.
In the study, the team gave participants three grams of softneck garlic cloves to chew for 25 seconds, and then water (control); raw, juiced or heated apple; raw or heated lettuce; raw or juiced mint leaves; or green tea were consumed immediately.
The levels of volatiles on the breath after consumption were analysed by selected ion flow tube mass spectrometry.
The findings showed that raw apple and raw lettuce decreased the concentration of volatiles responsible for garlic breath by 50 per cent or more compared to the control for the first 30 minutes.
Mint leaves had a higher deodorisation level compared to raw apple and raw lettuce for all volatile compounds measured.
Apple juice and mint juice reduced the levels of volatiles, but not as effectively as chewing raw apple or raw mint.
Both heated apple and lettuce produced a significant reduction of volatiles.
However, green tea had no deodorising effect on the garlic compounds, the researchers stated.
According to the researchers, foods deodorise garlic breath through two mechanisms.
First, enzymes in the raw foods help to destroy the odours, and then, phenolic -- chemical compounds consisting of a hydroxyl group (-OH) bonded directly to an aromatic hydrocarbon group -- in both the raw and cooked foods destroy the volatiles.
This is why raw foods were generally more effective because they contain both the enzymes and the phenolic compounds, said Rita Mirondo from the Ohio State University, in the paper published in the Journal of Food Science.
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From Different Corners
Sydney, Sep 26 (IANS) Managing diabetes could become much cheaper and simpler as researchers in Australia have developed a copper film that can detect glucose from body fluids containing salt, such as sweat or tears.
Researchers at the University of Wollongong's (UOW) Institute for Superconducting and Electronic Materials (ISEM) reported demonstration of the first construction of copper with a sponge-like porous structure, which can quickly and accurately detect glucose in salt-based fluids.
"The sponge-like porous structure greatly increases the surface area and therefore enhances the sensitivity required to trigger an electrochemical signal," said Professor Yusuke Yamauchi.
"The extraordinary sensing performance of the copper film is probably attributed to its intrinsically good reaction toward glucose oxidation," Yamauchi noted.
"This makes this copper film a good candidate for the direct detection of glucose to satisfy the requirements of diverse applications, such as diabetes management," he added.
People with diabetes often have low levels of insulin, a hormone that converts sugars to energy, which means they have to closely watch their glucose or blood-sugar levels to prevent further chronic health complications.
Foods, physical activity and other factors can influence glucose levels.
This has led medical device manufactures toward developing continuous glucose monitors that can be inserted just under the skin, providing the wearer with regular blood-sugar readings, removing the need for regular finger-pricking to extract a drop of blood for sugar measurement.
But the technology remains expensive, mainly due to the use of precious metals such as platinum in the sensor.
"Precious metals such as gold and platinum have very good conductivity but they are very expensive and we wanted to focus on more abundant and cheaper metals," Yamauchi said.
So the researchers developed a porous copper film with the sponge-like structure.
Testing revealed the film has high selectivity, reacting to glucose without interference from other acids and sugars that can be present in sweat, said the study published in the journal Angewandte Chemie.
The researchers believe the copper film could be integrated into a wearable sensor or a smartwatch, providing continual glucose readings to the wearer, which could also be sent via wireless to their doctor.
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From Different Corners
Washington, Sep 27 (IANS) Nasa on Monday released further evidence to show that there may be oceans on Europa -- Jupiter's largest moon.
Releasing new images captured from the Hubble Space Telescope, the space research organisation announced "surprising evidence of activity" on Europa which could be water vapour erupting from the icy moon, the telegraph reported.
Hubble made its latest identification by studying Europa as it passed in front of Jupiter.
The telescope looked in ultraviolet wavelengths to see if the giant planet's light was in any way being absorbed by material emanating from the moon's surface.
Ten times Hubble looked and on three of those occasions it spied what appeared to be "dark fingers" extending from the edge of Europa.
William Sparks, the lead astronomer on the study, said he could think of no natural phenomenon other than water plumes that might produce such protuberances.
"We're not aware of any instrumental artefacts that could cause these features; they are statistically significant. But we remain cautious because we are working at difficult wavelengths for Hubble," the BBC quoted him as saying.
"We do not claim to have proven the existence of plumes, but rather to have contributed evidence that such activity may be present."
Nonetheless, the location for the putative jets looks very similar to the region where Hubble earlier this decade detected an excess of oxygen and hydrogen -- the component parts of water, the BBC reported.
Europa is one of the largest of Jupiter's 67 known moons. In late 2013 the Hubble telescope observed water vapour erupting from Europa, in what was hailed as a ‘tremendously exciting' discovery.
Previous scientific findings had already pointed to the existence of an ocean located under Europa's icy crust, but it was thought teams in the future would have to drill through the thick layer of ice before any signs of life would be detectable.
Lorenz Roth of Southwest Research Institute in San Antonio said at the time that if the plumes of vapour were connected to the ocean beneath the crust they could start searching for life nearer the surface.
"This means that future investigations can directly investigate the chemical makeup of Europa's potentially habitable environment without drilling through layers of ice," the telegraph quoted him as saying.
"And that is tremendously exciting."
Participants in the teleconference included Paul Hertz, director of NASA's Astrophysics Division; William Sparks of the Space Telescope Science Institute in Baltimore; Britney Schmidt of the Georgia Institute of Technology; and Jennifer Wiseman, senior Hubble project scientist at NASA's Goddard Space Flight Centre.
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From Different Corners
Washington, Sep 27 (IANS) The moon was formed by a planetary object hitting the infant Earth some 4.5 billion years ago, say researchers who studied a layer of iron and other elements.
The authors argue this was the same impact that sent a great mass of debris hurtling into space, creating the moon.
The scientists used laboratory simulations of an Earth impact as evidence that a stratified layer beneath the rocky mantle -- which appears in seismic data -- was created when Earth was struck by a smaller object.
"Our experiments bring additional evidence in favour of the giant impact hypothesis," said Maylis Landeau, post-doctoral fellow in Johns Hopkins University's department of Earth and Planetary Sciences.
"The giant impact scenario also explains the stratification inferred by seismology at the top of the present-day Earth's core. This result ties the present-day structure of Earth's core to its formation," added Landeau, now a Marie Curie Fellow at University of Cambridge.
According to Peter Olson, Research Professor at Johns Hopkins, the giant impact argument for the formation of the moon is the most prevalent scientific hypothesis on how Earth satellite was formed, but it is still considered unproven because there's been no "smoking gun" evidence.
"We're saying this stratified layer might be the smoking gun," said Olson. "Its properties are consistent with it being a vestige of that impact."
Their argument is based on seismic evidence of the composition of the stratified layer -- believed to be some 200 miles thick and lie 1,800 miles below Earth's surface -- and on laboratory experiments simulating the turbulence of the impact.
The turbulence, in particular, is believed to account for the stratification -- meaning a mix of materials in layers rather than a homogeneous composition -- at the top of the core.
The stratified layer is believed to consist of a mix of iron and lighter elements, including oxygen, sulphur and silicon.
The very existence of this layer is understood from seismic imaging, as it lies far too deep underground to be sampled directly.
The study was published in the journal Nature Geoscience.
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London, Sep 27 (IANS) Bilingual educational programmes in those subjects that were taught in English have a negative effect on the level of competence and knowledge in students, finds a study.
Bilingual education programmes, in which a substantial part of the teaching is done in a language different from the mother tongue and from the language of the students' surroundings, have been introduced in countries such as India, Spain and the US.
The researchers analysed the effects of these programmes and have found a negative effect on the level of competence and knowledge displayed by the students who have followed this bilingual programme in those subjects that were taught in English.
The study, which was published in the journal Economic Inquiry, used data from the test of essential knowledge administered by the Community of Madrid when students complete their elementary education.
"These students and teachers are making an additional effort because they have to teach and learn the subjects in a language that is not theirs. They have to spend more time and make a greater effort to learn English, which can affect their learning of the specific material taught in subjects such as Science, History and Geography," said Jesus Carro, researcher at the Universidad Carlos III de Madrid, Spain.
This negative result is more pronounced in those students whose parents have a lower level of education, while the difference is hardly noticeable in students whose parents have a higher level of studies.
"We can establish a number of hypotheses with the regard to the reasons behind this, such as that they receive more help at home, they have greater resources, they are more exposed to situations where other languages are used or that are linguistically richer," Carro added.
According to the study, it is possible that the negative effect that has been detected will disappear at that point because, in secondary school, the students have a higher level of English
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New York, Sep 27 (IANS) Scientists know that stimulating the brain via electricity or other means may help ease the symptoms of various neurological and psychiatric disorders like epilepsy and depression.
Now, researchers from the University of Pennsylvania and University at Buffalo have discovered that stimulation of a single region of the brain affects the activation of other regions and large-scale activity within the brain.
"We don't have a good understanding of the effects of brain stimulation," said first author Sarah Muldoon, assistant professor of mathematics in University at Buffalo's college of arts and sciences.
"When a clinician has a patient with a certain disorder, how can they decide which parts of the brain to stimulate? Our study is a step toward better understanding how brain connectivity can better inform these decisions," she added.
If you look at the architecture of the brain, it appears to be a network of interconnected regions that interact with each other in complicated ways.
"The question we asked in this study was how much of the brain is activated by stimulating a single region. We found that some regions have the ability to steer the brain into a variety of states very easily when stimulated, while other regions have less of an effect," explained Danielle S Bassett, associate professor of bioengineering in the University of Pennsylvania.
The study used a computational model to simulate brain activity in eight individuals whose brain architecture was mapped.
The research examined the impact of stimulating each of 83 regions within each subject's brain. While results varied by person, common trends emerged.
Network hubs -- areas of the brain that are strongly connected to other parts of the brain via the brain's white matter -- displayed what researchers call a "high functional effect":
Stimulating these regions resulted in the global activation of many brain regions.
These patterns suggest that doctors could pursue two classes of therapies when it comes to brain stimulation: a "broad reset" that alters global brain dynamics, or a more targeted approach that focuses on the dynamics of just a few regions.
The research was published in the journal PLOS Computational Biology.
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New York, Sep 28 (IANS) US researchers have designed a peptide-based nanoparticle, which when injected into an injured joint will not only suppress the inflammation immediately but also reduce the destruction of cartilage, thus lowering the risk for osteoarthritis.
Osteoarthritis is a type of arthritis that occurs when flexible tissue at the ends of bones wears down.
In this study, the nanoparticles were injected locally shortly after injury into the joint of the participants to penetrate into the injured cartilage to prevent cartilage breakdown that could eventually cause osteoarthritis.
Within 24 hours the nanoparticles were at work to tame the inflammation in the joint, the researchers said.
"These nanoparticles remain in the joint longer (than the traditional anti-inflammotory drugs) and help prevent cartilage degeneration," said Associate Professor Christine Pham from Washington University in St. Louis in the US.
"The nanoparticles are injected directly into the joint, and due to their size, they easily penetrate into the cartilage to enter the injured cells," added Professor Samuel Wickline of Washington University.
The newly developed nanoparticles carry a peptide derived from a natural protein called melittin that has been modified to enable it to bind to a molecule called small interfering RNA (siRNA).
The melittin delivers siRNA to the damaged joint, interfering with inflammation in cells.
It is more than 10 times smaller than a red blood cell, which helps them penetrate deeply into tissues, the researchers noted.
The findings were reported online in the early edition of the Proceedings of the National Academy of Sciences.
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Sydney, Sep 28 (IANS) Cinnamon just not enhances taste but significantly contributes in improving health by cooling the body by up to two degrees, according to research.
The research published in the journal Scientific Reports said that the investigators used pigs for the study and found that cinnamon maintained the integrity of the stomach wall.
"When pigs feed at room temperature, carbon dioxide (CO2) gas increases in their stomach. Cinnamon in their food reduces this gas by decreasing the secretion of gastric acid and pepsin from the stomach walls, which in turn cools the pigs' stomachs during digestion," said Kourosh Kalantar-zadeh, Professor at the RMIT's School of Engineering.
The researchers have developed swallowable gas sensor capsules or smart pills which the by-product of digestion and could provide valuable insights into the functioning and health of the gut.
"Our experiments with pigs and cinnamon show how swallowable gas sensor capsules can help provide new physiological information that will improve our understanding of diet or medicine. They are a highly reliable device for monitoring and diagnosing gastrointestinal disorders," Kalantar-zadeh added.