Zanzibar Health Air Quality - NASA DEVELOP Fall 2014 @ International Research Institute
This project identified various environmental factors that allow for the presence of malaria in Zanzibar. To accomplish this, the ISERV camera system aboard the International Space Station...
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Zanzibar Health & Air Quality - NASA DEVELOP Fall 2014 @ International Research Institute - Video
A reprocessed picture shows off the amazing colors of Europa, a mysterious ice-covered moon of Jupiter, as they have never been seen before.
The original observations were collected by the Galileo spacecraft, which explored Jupiter and its moons from orbit in the 1990s. NASA officials reprocessed Galileo's data using modern imaging techniques that improved on an enhanced-color view of Europa the agency created in 2001.
The new photo, released on Nov. 21, shows the largest proportion of Europa's surface at the highest image resolution, NASA said.
NASA released the picture as the agency pushes forward with plans to explore Europa in the coming decades, based on the theory that there is water lurking underneath the moon's icy shell. That water could host life under the right conditions, scientists say. [Infographic: Europa Explained]
"The story of life on Earth may have begun in our oceans, and that's because of course if we've learned anything about life on Earth, it's that where you find the liquid water, you generally find life," Kevin Hand, an astrobiologist at the NASA Jet Propulsion Laboratory, said in a new video about Europa.
Hand said Europa is a "game-changer" for life-seeking missions because the moon's main source of energy is from Jupiter, not the sun. As the moon orbits the massive gas giant, the immense gravity from Jupiter causes Europa to flex. The friction from such flexing could make it possible for moons and planets to host liquid water even if they are far from a star's traditional habitable zone.
"Hidden beneath Europa's icy surface is perhaps the most promising place in our solar system beyond Earth to look for present-day environments that are suitable for life," NASA said in a statement.
Among NASA's proposed missions to Jupiter's icy moon is the Europa Clipper, a mission pegged to cost about $2 billion. It would orbit Jupiter and get more information about Europa's ocean in a series of flybys. If funded, the mission would launch sometime around 2025.
This is a condensed version of a report from Space.com. Read the full report. Follow Elizabeth Howell on Twitter. Follow Space.com on Twitter, Facebook and Google+.
First published November 24 2014, 2:57 PM
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WASHINGTON, Nov. 24 (UPI) -- NASA has contracted with two private space firms to prepare for and ultimately execute missions to land on and mine asteroids for valuable resources. The contracts, forged between NASA and both Deep Space Industries and Planetary Resources, are further evidence of a the kinds of new and interesting partnerships as space exploration increasingly becomes the domain of private industry.
Both companies have been forging plans to launch asteroid-landing probes for months-long stints on near Earth objects -- with the aim of extracting valuable resources. Although such expeditions could theoretically return to Earth with valuable minerals, the financial viability of the concept relies on the prospects of supplying other space missions with an extracted assets. That's where NASA comes in.
With a spate of deep space missions planned in the coming century, NASA would be able to save time and money by supplying some of those missions (including International Space Station expeditions) with vital resources mined from asteroids -- water, silicate, carbonaceous minerals and more.
"Deep Space brings commercial insight to NASA's asteroid planning, because our business is based on supplying what commercial customers in Earth orbit need to operate, as well as serving NASA's needs for its moon and Mars exploration," Deep Space CEO Daniel Faber said in a press release earlier this year. "The fuel, water, and metals that we will harvest and process will be sold into both markets, making available industrial quantities of material for expanding space applications and services."
The fuel it takes to rocket out of the grasp of Earth's gravity makes launching anything -- much less a massive cargo ship -- exceptionally expensive. By contrast, asteroids have minuscule centers of gravity, making coming and going from them much less fuel (and cost) intensive.
"Right now it costs $17 million per ton to get anything up to geosynchronous orbit," David Gump, vice chairman of Deep Space, told The Boston Globe. "If we can beat whatever that price is in 2022, we'll have a big market."
"Asteroids hold the resources necessary to enable a sustainable, even indefinite presence in space -- for science, commerce and continued prosperity here on Earth," Chris Lewicki, president and chief engineer of Planetary Resources, echoed in a statement released by NASA last week.
As part of Planetary Resources' ongoing cooperation with NASA's asteroid exploration efforts, the company will help sort through the near Earth object-finding algorithms being submitted by citizen scientists as part of the agency's Asteroid Data Hunter challenge.
"By harnessing the public's interest in space and asteroid detection, we can more quickly identify the potential threats, as well as the opportunities," Lewicki added.
Following in the wake of European Space Agency's history-making comet landing, NASA will attempt to land its own spacecraft, the OSIRIS-Rex, on an asteroid named Bennu in September 2016.
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An incredible, reprocessed picture of Jupiter's moon Europa shows the mysterious natural satellite's amazing colors as they have never been seen before.
Theoriginal photos of Europawere collected by the Galileo spacecraft, which explored Jupiter and its moons from orbit in the 1990s. NASA officials reprocessed Galileo's data using modern imaging techniques that improved on an enhanced-color view ofEuropa the agency created in 2001. The new photo, released on Nov. 21, shows the largest proportion of Europa's surface at the highest images resolution, NASA officials said.
NASA released the picture as the agency pushes forward with plans to explore Europa in the coming decades, based on the theory that there is water lurking underneath the moon's icy shell. That water could host life, under the right conditions, scientists have said. [Europa: Jupiter's Icy Moon Explained (Infographic)]
"The story of life on Earth may have begun in our oceans, and that's because of course if we've learned anything about life on Earth, it's that where you find the liquid water, you generally find life," Kevin Hand, an astrobiologist at the NASA Jet Propulsion Laboratory, said in anew video about Europa.
Europa, Hand said, is a "game-changer" for life-seeking missions because the moon's main source of energy is from Jupiter not the sun. As the moon orbits the massive gas giant, the immense gravity from Jupiter causes Europa to flex.
Calculations of tidal flexing make it possible for moons and planets to host liquid water even if they are far from a star's traditional "Goldilocks zone," the area surrounding a star where heat and energy allow water to remain liquid on a planet.
That flexing not only creates energy, but can grind the water of the moon against rocks. These interactions could potentially create the energy necessary for life, providing that the building blocks such as amino acids are available, scientists have said.
"Hidden beneath Europa's icy surface is perhaps the most promising place in our solar system beyond Earth to look for present-day environments that are suitable for life," NASA officials wrote in a statement. "The Galileo mission found strong evidence that a subsurface ocean of salty water is in contact with a rocky seafloor. The cycling of material between the ocean and ice shell could potentially provide sources of chemical energy that could sustain simple life forms."
Among NASA's proposed missions to Jupiter's icy moon is theEuropa Clipper, a mission pegged to cost about $2 billion. It would orbit Jupiter and get more information about Europa's ocean in a series of flybys. If funded, the mission would launch to space around 2025.
Follow Elizabeth Howell@howellspace.Follow us@Spacedotcom,FacebookandGoogle+. Original article onSpace.com.
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Registration now is open for NASA's Cube Quest Challenge, the agencys first in-space competition that offers the agencys largest-ever prize purse.
Competitors have a shot at a share of $5 million in prize money and an opportunity to participate in space exploration and technology development, to include a chance at flying their very own CubeSat to the moon and beyond as secondary payload on the first integrated flight of NASA's Orion spacecraft and Space Launch System (SLS) rocket.
"NASA's Cube Quest Challenge will engage teams in the development of the new technologies that will advance the state of the art of CubeSats and demonstrate their capabilities as viable deep space explorers," said Michael Gazarik, associate administrator for NASA's Space Technology Mission Directorate at NASA Headquarters in Washington. "Prize competitions like this engage the general public and directly contribute to NASA's goals while serving as a tool for open innovation."
Challenge objectives include designing, building and delivering flight-qualified, small satellites capable of advanced operations near and beyond the moon. The challenge and prize purse are divided into three major areas:
- Ground Tournaments: $500,000 in the four qualifying ground tournaments to determine who will have the ability to fly on the first SLS flight;
- Lunar Derby: $1.5 million for demonstrating communication and CubeSat durability at a distance greater than almost 2.5 million miles (4,000,000 km), 10 times the distance from the Earth to the moon; and
- Deep Space Derby: $3 million for demonstrating the ability to place a CubeSat in a stable lunar orbit and demonstrate communication and durability near the moon.
The Cube Quest Challenge seeks to develop and test subsystems necessary to perform deep space exploration using small spacecraft. Advancements in small spacecraft capabilities will provide benefits to future missions and also may enable entirely new mission scenarios, including future investigations of near-Earth asteroids.
"Cube Quest is an important competition for the agency as well as the commercial space sector," said Eric Eberly, deputy program manager for Centennial Challenges at NASA's Marshall Space Flight Center in Huntsville, Alabama. "If we can produce capabilities usually associated with larger spacecraft in the much smaller platform of CubeSats, a dramatic improvement in the affordability of space missions will result, greatly increasing science and research possibilities."
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Just as George Lucas re-released his classic Star Wars trilogy in digitally remastered versions for a new audience, NASA has re-released a remastered view of one of their own space classics.
Since its original publication in 2001, the famous Galileo spacecraft observation of the cracked surface of the frozen Jupiter moon Europa has graced countless book covers and ignited the worlds imagination as to what lies inside the small worlds sub-surface ocean.
ANALYSIS: NASA Calls for Europa Mission Ideas
But the original observation, which is actually a mosaic of separate observations captured by the NASA spacecraft in the late 1990s, had its colors strongly enhanced to expose surface details that wouldnt otherwise be seen. Now, using modern processing techniques, NASAs Jet Propulsion Laboratory in Pasadena, Calif., has recreated the alien landscape, closely approximating how the human eye would see it.
See the remastered version and compare it with NASA's original Galileo observations.
Space imaging enthusiasts have produced their own versions of the view using the publicly available data, but NASA has not previously issued its own rendition using near-natural color, writes the JPL news release.
NEWS: Possible Europa Tectonics Could be Boon for Alien Life
Europas trademark reddish cracks break up the predominantly water ice crust. As can be seen in this new view of Europa, the moons north and south poles (on the left and right) are significantly bluer than the equatorial regions. Planetary scientists believe that this difference in hue is down to varying ice crystal sizes.
The ruddy regions are stained with chemicals that scientists are keen to understand as they represent a tectonic history of the moon where the sub-surface ocean is interacting with the icy crusts surface. A better understanding of the icy dynamics could shed new light on the habitable potential of Europa and moons like it.
ANALYSIS: Cubesats May Hitchhike on Mission to Europa
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NASA has released a video depicting the initial deployment of an undertaking designed to study a phenomenon known as magnetic reconnection. The launch of the Magnetospheric Multiscale (MMS) mission will see four identical spacecraft deployed from a single Atlas V rocket, set to lift off from cape Canaveral, Florida, no earlier than March next year.
Magnetic reconnection is a plasma-based phenomenon that is believed to take place throughout the known universe, occurring when two or more magnetic field lines cross, releasing a gigantic burst of energy that had previously been stored in a planetary body's magnetic field. The result of this process is the explosive release of charged particles and large-scale matter flows that are thought to be the cause of massive solar eruptions, as well as the trigger for the stunning aurora observable around the Northern and Southern poles of our planet.
The MMS mission hopes to shed light on the phenomenon via a constellation of satellites operating in low-Earth orbit. These satellites will periodically cross through two known magnetic reconnection regions, gathering data via super-fast scientific instruments. Prior to launch, the four satellites are stacked one on top of another in the fairings of a United Launch Alliance Atlas V rocket a tested and proven method of satellite delivery boasting a 100 percent mission success rate.
Upon achieving orbit, the upper-stage fairings separate, allowing the spacecraft to deploy sequentially, positioning themselves to form a giant pyramid, or tetrahedron, at which point the probes will extend a series of booms containing scientific equipment. This formation should allow the spacecraft to gather information on the 3D structure of the phenomenon with a level of detail unattainable by previous missions.
NASA graphic illustrating Earth's magnetosphere the two grey boxes indicate known magnetic reconnection regions (Image: NASA)
Each of the four identical MMS spacecraft boasts a compliment of 25 sensors comprising 11 instruments. Power is provided to the equipment via solar panels that cover each of the spacecraft's eight sides. The plethora of Instruments aboard the probes are separated into three sub-categories or "suites."
The Hot Plasma Suite uses Fast Plasma Investigation and Hot Plasma Composition Analyzer instruments to observe the characteristics of plasma during the magnetic reconnection, whilst the Energetic Particles Detector Suite keeps track of the high energy particles spewed out by the phenomenon. Finally, the spacecraft's Fields Suite will observe the behavior of electric and magnetic fields and waves over the course of an incident.
By utilizing such a wide range of scientific equipment in a constellation of four spacecraft, the mission should be prepared to document and analyze a magnetic connection event in all its forms, whether it be isolated, or spanning a vast region of space. Whilst such a mission may at first glance appear to be blue sky science, NASA believes that insights offered by the MMS mission could aid in the creation of clean energy solutions such as fusion energy reactors, the development of which has thus far been hampered by interference caused by magnetic reconnection.
The video below, courtesy of NASA, outlines the launch and initial deployment of the four MMS spacecraft.
Source: NASA
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The first flight test of Orion, NASAs next-generation spacecraft that will send astronauts to an asteroid and onward to Mars, is scheduled for Thursday, Dec. 4. NASA will host a series of news conferences and flight test commentary on NASA Television, as well as media events at the agencys Kennedy Space Center in Florida.
Orion will launch, uncrewed, on a United Launch Alliance Delta IV Heavy rocket at 7:05 a.m. EST from Space Launch Complex 37 at Cape Canaveral Air Force Station (CCAFS) in Florida. The window for launch is two hours 39 minutes.
NASA TV launch commentary of the flight, designated Exploration Flight Test-1, begins at 4:30 a.m. and will continue through splashdown in the Pacific Ocean approximately 600 miles southwest of San Diego.
During its 4.5 hour trip, Orion will orbit Earth twice and travel to an altitude of 3,600 miles into space. The flight is designed to test many of the elements that pose the greatest risk to astronauts and will provide critical data needed to improve Orions design and reduce risks to future mission crews.
Media events for the flight begin two days before launch.
Tuesday, Dec. 2
Wednesday, Dec. 3
A post-flight test briefing on NASA TV also will be held approximately two hours after splashdown on Dec. 4.
Media events will take place at Kennedy and CCAFS. The deadlines for media to register to attend in person have passed. All registered media must present two forms of legal, government-issued identification to access Kennedy for launch events. One form must be a photo ID, such as a passport or driver's license. Media credentials will be accepted for access to mission activities at Kennedy. For more information about media accreditation, contact Jennifer Horner at 321-867-6598.
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NASA Sets Prelaunch Activities, Television Coverage for Orion Flight Test
GABRIELA MORENO NANOTECHNOLOGY SWIMSUITS DRAGOS DEN 2014
DRAGONS DEN 2014 GABRIELA MORENO GMPD BEHIND THE SCENES GABRIELAMORENO.COM.
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GABRIELA MORENO NANOTECHNOLOGY SWIMSUITS DRAGOS DEN 2014 - Video
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24-Nov-2014
Contact: Judy Lowry jhlowry@usf.edu 813-974-3181 University of South Florida (USF Innovation)
WASHINGTON, D.C. (Nov. 24, 2014) - Five faculty members from the University of South Florida in Tampa have been named Fellows of the American Association for the Advancement of Science (AAAS). Election as an AAAS Fellow is an honor bestowed upon AAAS members by their peers.
This year, 401 members from 196 universities and organizations have been awarded this honor by AAAS because of their scientifically or socially distinguished efforts to advance science or its applications.
New Fellows will be presented with an official certificate and a gold and blue (representing science and engineering, respectively) rosette pin on Feb. 14, 2015, from 8:00 a.m. to 10:00 a.m. at the AAAS Fellows Forum during the 2015 AAAS Annual Meeting in San Jose, Cal.
Top ranked organizations
With five Fellows, USF is ranked 4th worldwide for organizations with the most AAAS Fellows named this year, tied with Boston University, Duke University, Johns Hopkins University, University of California, Los Angeles, University of Chicago, University of Florida, University of Illinois at Urbana-Champaign, University of Tennessee Knoxville and University of Texas at Austin.
Other top ranked organizations include Vanderbilt University in first place with 11 Fellows; Emory University, University of Michigan, Pennsylvania State University and University of Texas MD Anderson Cancer Center, all tied for second place with eight Fellows each. Tied for third place with six Fellows each are the University of California, Davis, The Ohio State University, Albert Einstein College of Medicine, Cornell University, University of Maryland and University of North Carolina Chapel Hill.
"The University of South Florida is proud of these outstanding faculty members," said Dr. Paul R. Sanberg, AAAS Fellow and senior vice president for research and innovation at USF. "Their dedication to furthering knowledge and discovery within their fields continues to make USF successful as a global research university."
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Ultra-short and extremely strong X-ray flashes, as produced by free-electron lasers, are opening the door to a hitherto unknown world. Scientists are using these flashes to take "snapshots" of the geometry of tiniest structures, for example the arrangement of atoms in molecules. To improve not only spatial but also temporal resolution further requires knowledge about the precise duration and intensity of the X-ray flashes. An international team of scientists has now tackled this challenge.
X-ray flashes are a unique scientific tool. They are generated by accelerating electrons to very high energy levels in kilometer-long vacuum tubes, so-called linear accelerators, and then deflecting them with specially arranged magnets. In the process the particles emit X-ray radiation that is amplified until an ultra-short and intensive X-ray flash is released.
Researchers use these X-ray flashes to resolve structures as small as one ten billionth of a meter (0.1 nanometer) in size. That is roughly the diameter of a hydrogen atom. In this way, biomolecules, for example, can be imaged at extremely high resolution, providing new insight into the nano cosmos of nature.
Using two quickly sequenced flashes the researchers can even obtain information on structural changes during reactions. The first laser flash triggers a reaction while the second measures structural changes during the reaction. For this it is essential to know the precise duration and temporal intensity distribution of the X-ray flashes. However, hitherto it has not been possible to measure the ultra-short pulses directly.
Researchers at the Technische Universitt Mnchen (TUM), the Hamburg Center for Free-Electron Laser Science (CFEL) and the Max Planck Institute of Quantum Optics (MPQ) in Garching, in collaboration with other colleagues, have now developed just such a methodology. The respective experiments were done at the SLAC National Accelerator Laboratory in California (USA) by a team headed by Professor Reinhard Kienberger, Dr. Wolfram Helml (TUM) and Dr. Andreas Maier (CFEL).
The scientists determined the duration of the X-ray flashes by modifying a process originally developed to measure ultra-short flashes of light. The physicists directed the X-ray flashes into a vacuum chamber filled with a few atoms of an inert gas. There they superimposed the flashes with 2.4 micrometer wavelength pulses of infrared light.
When the X-ray flashes hit a gas atom they knock electrons out of the innermost shell, setting them free. After being liberated the electrons are accelerated or decelerated by the electrical field of the infrared light pulse. The change in an electron's velocity is a function of when the light intercepts the electron, and thus of the electrical field strength at the moment of ionization.
Since electrons are set free during the full duration of an X-ray flash, electrons emitted at different points in time "feel" different field strengths of the periodically oscillating infrared light. As a result they are accelerated at varying rates. The physicists can then calculate the duration of the original X-ray flash from the different arrival times of the electrons in a detector.
Using this approach, the researchers determined that the average pulse duration doesn't exceed four and a half femtoseconds -- a femtosecond is a millionth of a billionth of a second (10-15 seconds). In addition, the researchers obtained insight into the structure of the X-ray flashes.
A characteristic of the intense X-ray flashes generated in free-electron lasers is their randomly changing pulse form. A typical X-ray pulse comprises multiple contiguous shorter "X-ray spikes." The number and intensity of these spikes varies from one shot to the next.
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18 hours ago by Emil Venere
Researchers at Nano-Meta Technologies Inc. (NMTI) in the Purdue Research Park have shown how to overcome key limitations of a material that could enable the magnetic storage industry to achieve data-recording densities far beyond today's computers.
The new technology could make it possible to record data on an unprecedented small scale using tiny "nanoantennas" and to increase the amount of data that can be stored on a standard magnetic disk by 10 to 100 times.
The storage industry's technology strategy, called heat-assisted magnetic recording (HAMR), hinges on the design of the nanoantenna, or near-field transducer (NFT), said Urcan Guler, chief scientist at Nano-Meta Technologies.
HAMR harnesses "plasmonics," a technology that uses clouds of electrons called surface plasmons to manipulate and control light. However, some of the plasmonic NFTs under development rely on the use of metals such as gold and silver, which are not mechanically robust and present a challenge in fabrication and long-term reliability of the HAMR recording head.
Researchers from Nano-Meta Technologies and Purdue University are working to replace gold with titanium nitride. The material offers high strength and durability at high temperatures, and its use as a nanoantenna paves the way for next-generation recording systems, said Vladimir M. Shalaev, scientific director of nanophotonics at Purdue's Birck Nanotechnology Center and a distinguished professor of electrical and computer engineering.
The researchers have modified the physical properties of titanium nitride, tailoring it for HAMR.
A team from Nano-Meta Technologies and Purdue has authored an article on the need to develop new materials as alternatives to gold and silver for various plasmonic applications, using HAMR as an example. The article was published online this month in the journal Faraday Discussions.
The technology could make it possible to circumvent the disk-storage-capacity limits imposed by conventional magnetic recording materials. Normally, lenses cannot focus light smaller than the wavelength of the light itself, which is hundreds of nanometers across. However, nanoantennas allow light to be focused into spots far smaller than the wavelength of light, making it possible to increase the storage capacity of the medium.
Industry has been reluctant to adopt titanium nitride for potential new plasmonic applications because making nanoantennas out of conventional titanium nitride leads to excessive "self-heating" through absorption of the input laser light, hindering performance. Common titanium nitride also undergoes oxidation reactions at high temperatures that degrade its optical properties, said Ernesto Marinero, a professor in Purdue's School of Materials Engineering who is an expert in magnetic recording and joined the university after a long career in the storage industry.
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Breakthrough solutions for HAMR nanoantenna for next-generation ultra-high density magnetic storage
Reston, Va. (PRWEB) November 24, 2014
The Society of Nuclear Medicine and Molecular Imaging (SNMMI) has released a new infographic showing how certain types of cancer can be treated using nuclear medicine therapy. Targeted Cancer Treatment with Nuclear Medicine Therapy is a visual guide to radioisotope therapy, a personalized treatment where a radioactive drug compound seeks and destroys cancer cells.
The infographic highlights the types of cancer that can be treated with targeted radioisotope therapy (TRT)including thyroid, liver, prostate, neuroblastoma, non-Hodgkins lymphoma, and metastatic neuroendocrine tumors. It breaks down the specific radioisotope treatment for each area and its effectiveness in patients.
Radioisotope therapy is a precision treatment that is highly selectivekilling cancer cells and minimizing damage to healthy cellsand can be tailored to the unique molecular properties of the tumor. Virtually all radioisotope therapies are performed as outpatient procedures, and side effect rates are typically less than those of less focused treatments
To view the infographic, visit: http://www.snmmi.org/therapyinfographic
For more information about radioisotope therapies, visit: http://www.snmmi.org/factsheets.
About the Society of Nuclear Medicine and Molecular Imaging
The Society of Nuclear Medicine and Molecular Imaging (SNMMI) is an international scientific and medical organization dedicated to raising public awareness about nuclear medicine and molecular imaging, a vital element of todays medical practice that adds an additional dimension to diagnosis, changing the way common and devastating diseases are understood and treated and helping provide patients with the best health care possible.
SNMMIs more than 18,000 members set the standard for molecular imaging and nuclear medicine practice by creating guidelines, sharing information through journals and meetings and leading advocacy on key issues that affect molecular imaging and therapy research and practice. For more information, visit http://www.snmmi.org.
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SNMMI Introduces Infographic Explaining Nuclear Medicine Therapy
Apps That De-Stress
$7.99/month to $419.95/forever
Is a job hunt majorly stressing out someone you love? Headspace is an app that uses proven mindfulness and meditation techniques to clear your skull. Headspaces website describes it as a gym membership for the mind.
Accessed through smartphone or computer, daily Zen mind exercises can be scheduled for two minutes or up to an hour. Headspaces website says itll help relax in three areas: health, performance, and relationships, but what we think sounds most helpful is the SOS function that claims to soothe someone during their worst meltdown.
Get a family member or friend a subscription and look forward to never playing phone therapist again. No one wants to hire a crazy person. Next
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Lankford Protective Service Receive Tribute Medicine Discount Cards by Charles Myrick of ACRX
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Maine Childrens Home Receive Tribute Medicine Assistance By Charles Myrick of ACRX
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Maine Childrens Home Receive Tribute & Medicine Assistance By Charles Myrick of ACRX - Video
Life Guide Financial Advisors Receive Tribute Medicine Assistance By Charles Myrick Of ACRX
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Job Corps in Washington,DC Receive Tribute Medicine Discount Cards By Charles Myrick Of ACRX
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Henry Co Health Dept Receive Tribute Medicine Help By Charles Myrick Of ACRX
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Henry Co Health Dept Receive Tribute & Medicine Help By Charles Myrick Of ACRX - Video
First United Methodist Church Receive Tribute Medicine Help By Charles Myrick of ACRX
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First United Methodist Church Receive Tribute & Medicine Help By Charles Myrick of ACRX - Video