NASA has generated many new technologies with applications far beyond space trav
ID: 119362 • Letter: N
Question
NASA has generated many new technologies with applications far beyond space travel. Space Ice Cream aside, technology offers many opportunities to improve the safety and shelf life of food without significantly affecting the taste or nutrient value the product.
What are some examples of these types of technologies?
How could these technologies be used for world evangelization and fulfilling our Christian obligations to the poor and disadvantaged?
What obstacles exist toward the implementation of these technologies?
What factors should be used to determine if and how a technology is used?
Needs to be around 700 words
Explanation / Answer
Red light-emitting diodes are growing plants in space and healing humans on Earth. The LED technology used in NASA space shuttle plant growth experiments has contributed to the development of medical devices such as award-winning WARP 10, a hand-held, high-intensity, LED unit developed by Quantum Devices Inc. The WARP 10 is intended for the temporary relief of minor muscle and joint pain, arthritis, stiffness, and muscle spasms, and also promotes muscle relaxation and increases local blood circulation. The WARP 10 is being used by the U.S. Department of Defense and U.S. Navy as a noninvasive “soldier self-care” device that aids front-line forces with first aid for minor injuries and pain, thereby improving endurance in combat. The next-generation WARP 75 has been used to relieve pain in bone marrow transplant patients, and will be used to combat the symptoms of bone atrophy, multiple sclerosis, diabetic complications, Parkinson’s disease, and in a variety of ocular applications. (Spinoff 2005, 2008).
Diatek Corporation and NASA developed an aural thermometer, which weighs only 8 ounces and uses infrared astronomy technology to measure the amount of energy emitted by the eardrum, the same way the temperature of stars and planets is measured. This method avoids contact with mucous membranes, virtually eliminating the possibility of cross infection, and permits rapid temperature measurement of newborn, critically-ill, or incapacitated patients. NASA supported the Diatek Corporation, a world leader in electronic thermometry, through the Technology Affiliates Program. (Spinoff 1991).
NASA’s continued funding, coupled with its collective innovations in robotics and shock-absorption/comfort materials are inspiring and enabling the private sector to create new and better solutions for animal and human prostheses. Advancements such as Environmental Robots Inc.’s development of artificial muscle systems with robotic sensing and actuation capabilities for use in NASA space robotic and extravehicular activities are being adapted to create more functionally dynamic artificial limbs (Spinoff 2004). Additionally, other private-sector adaptations of NASA’s temper foam technology have brought about custom-moldable materials offering the natural look and feel of flesh, as well as preventing friction between the skin and the prosthesis, and heat/moisture buildup. (Spinoff 2005)
Collaboration between NASA, Dr. Michael DeBakey, Dr. George Noon, and MicroMed Technology Inc. resulted in a lifesaving heart pump for patients awaiting heart transplants. The MicroMed DeBakey ventricular assist device (VAD) functions as a “bridge to heart transplant” by pumping blood throughout the body to keep critically ill patients alive until a donor heart is available. Weighing less than 4 ounces and measuring 1 by 3 inches, the pump is approximately one-tenth the size of other currently marketed pulsatile VADs. This makes it less invasive and ideal for smaller adults and children. Because of the pump’s small size, less than 5 percent of the patients implanted developed device-related infections. It can operate up to 8 hours on batteries, giving patients the mobility to do normal, everyday activities. (Spinoff 2002)
NASA funding under the Small Business Innovation Research (SBIR) program and work with NASA scientists advanced the development of the certification and integration of a thermoelectric deicing system called Thermawing, a DC-powered air conditioner for single-engine aircraft called Thermacool, and high-output alternators to run them both. Thermawing, a reliable anti-icing and deicing system, allows pilots to safely fly through ice encounters and provides pilots of single-engine aircraft the heated wing technology usually reserved for larger, jet-powered craft. Thermacool, an innovative electric air conditioning system, uses a new compressor whose rotary pump design runs off an energy-efficient, brushless DC motor and allows pilots to use the air conditioner before the engine even starts. (Spinoff 2007).
Safety grooving, the cutting of grooves in concrete to increase traction and prevent injury, was first developed to reduce aircraft accidents on wet runways. Represented by the International Grooving and Grinding Association, the industry expanded into highway and pedestrian applications. The technique originated at Langley Research Center, which assisted in testing the grooving at airports and on highways. Skidding was reduced, stopping distance decreased, and a vehicle’s cornering ability on curves was increased. The process has been extended to animal holding pens, steps, parking lots, and other potentially slippery surfaces. (Spinoff1985)
Like this we have radial wires, chemical detection, land mine removal,
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