Boosting NASA’s Budget Will Help Fix Economy: Neil deGrasse Tyson



 Reinvigorating space exploration in the United States will require not only boosting NASA’s budget but also getting the public to understand how pushing the boundaries of the space frontier benefits the country’s innovation, culture and economy, said renowned astronomer Neil deGrasse Tyson.

“Space is a $300 billion industry worldwide,” Tyson said. “NASA is a tiny percent of that. [But] that little bit is what inspires dreams.”

He spoke about how space has influenced culture — ranging from how the fins on early rockets inspired fins on automobiles in the 1950s, to how the Apollo 8 mission’s iconic picture taken in 1968 of Earth rising above the horizon of the moon led to a greater appreciation for our planet and the need to protect it. Yet, many people outside the space community see itas a special interest group, Tyson said.

“Innovation drives economy,” he said. “It’s especially been true since the Industrial Revolution.”

Tyson advocated doubling NASA’s budget — which President Barack Obama set at $17.7 billion in his 2013 federal budget request — and then laid out a different approach to space exploration that he called somewhat “unorthodox.” Rather than focusing on one destination at a time, Tyson promoted building a core fleet of launch vehicles that can be customized for a variety of missions and for a range of purposes.

“We’re kind of doing that now, but let’s do that as the focus,” Tyson said. “One configuration will get you to the moon. Another will get you to a Lagrangian point. Another will get you to Mars.”

Having an available suite of launch vehicles will open up access to space for a wider range of purposes, which will, in turn, benefit the country’s economy and innovation.

Tyson compared it with the country’s system of interstates, which helped connect cities across the country and made travel more efficient.

“When Eisenhower came back from Europe after he saw the [German] autobahn, and how it survived heavy climactic variation and troop maneuvers, he said, ‘I want some of that in my country,'” Tyson explained. “So he gets everyone to agree to build the interstate system. Did he say, ‘you know, I just want to build it from New York to L.A., because that’s where you should go?’ No. The interstate system connects everybody in whatever way you want. That’s how you grow a system.”

Furthermore, this type of capability can be used for a myriad of purposes, including military endeavors, science missions, commercial expeditions and space tourism.

“Whatever the needs or urges — be they geopolitical, military, economic — space becomes that frontier,” Tyson said. “Not only do you innovate, these innovations make headlines. Those headlines work their way down the educational pipeline. Everybody in school knows about it. You don’t have to set up a program to convince people that being an engineer is cool. They’ll know it just by the cultural presence of those activities. You do that, and it’ll jump-start our dreams.”


10 NASA Creations You May Use Everyday!

From Invisible Braces to Water Filtration, NASA has patented some of the most useful products available today. Each year since 1976, NASA has published every product linked to its research. 

In 1958, President Eise­n­hower signed the Space Act, officially creating the National Aeronautics and Space Administration. From the beginning, the purpose for the ne­w branch extended beyond space ships and moon boots. The law stipulated that its research and advancements should benefit all people, and in its 50-year history, NASA has certainly fulfilled that role.

Although most people today will never set foot on the moon, everyone likely comes in contact with a NASA by-product every day. Partnering with various research teams and companies, NASA continues to spawn a vast array of new technologies and products that have improved our daily lives. Basic steps in health, safety, communications and even casual entertainment find their ro­ots in the government branch commonly associated with rocket ships and floating people. In fact, NASA has filed more than 6,300 patents with the U.S. government .

Each year since 1976, NASA has published a list of every commercialized technology and product linked to its research. The NASA journal “Spinoff” highlights these products, which have included things like improved pacemakers, state of the art exercise machines and satellite radio. Each product was made possible thanks to a NASA idea or innovation.

But it doesn’t take a rocket scientist to use many of these so-called spinoffs. Read on to learn about ten of these familiar products.

NASA research extends beyond space flight into our everyday lives.

NASA research extends beyond space flight into our everyday lives.Image Credit: Joe Drivas/Getty Images

10. Invisible Braces

Many t­eenagers cringe at the prospect of braces. Getting one’s teeth in order used to mean enduring a mouth full of metal, but not so anymore. Invisible braces hit the market in 1987, and now there are multiple brands.

Invisible braces are made of translucent polycrystalline alumina (TPA). A company called Ceradyne developed TPA in conjunction with NASA Advanced Ceramics Research to protect the infrared antennae of heat-seeking missile trackers.

In the meantime, another company, Unitek, was working on a new design for dental braces — a design that would be more aesthetically pleasing and would not have the shiny metallic factor. It discovered that TPA would be strong enough to withstand use and is translucent, making it a prime material for invisible braces. Because of their instant popularity, invisible braces are one of the most successful products in the orthodontic industry .

Even celebs have teeth problems. See actor Tom Cruise's invisible ceramic braces.

Even celebs have teeth problems. See actor Tom Cruise’s invisible ceramic braces.Image Credit: Manny Ceneta/Getty Images

9. Scratch-resistant Lenses

If you­ drop a pair of eyeglasses on the ground, the lenses probably won’t break. That’s because in 1972, the Food and Drug Administration began requiring manufacturers to use plastic rather than glass to make lenses. Plastics are cheaper to use, better at absorbing ultraviolet radiation, lighter and not prone to shattering . Nevertheless, they also had an Achilles heel. Uncoated plastics tend to scratch easily, and scuffed lenses could impair someone’s sight.

Because of dirt and particles found in space environments, NASA needed a special coating to protect space equipment, particularly astronaut helmet visors. Recognizing an opportunity, the Foster-Grant sunglasses manufacturer licensed the NASA technology for its products. The special plastics coating made its sunglasses ten times more scratch-resistant than uncoated plastics .

A process NASA developed while refining helmet visors for astronauts led to scratch-resistant lenses for eyeglasses and sunglasses.

A process NASA developed while refining helmet visors for astronauts led to scratch-resistant lenses for eyeglasses and sunglasses.Image Credit: flashfilm/Getty Images

8. Memory Foam

NASA ­helps some people sleep better at night. Temper foam found in Tempurpedic brand mattresses and similar brands was originally developed for space flight and later repackaged for the home.

The open cell polyurethane-silicon plastic was created for use in NASA aircraft seats to lessen impact during landings. The plastic has a unique property that allows it to evenly distribute the weight and pressure on top of it, which provides shock absorbency. Even after being compressed to 10 percent of its size, the memory foam will return to its original shape . Some private and commercial planes now feature the foam in seats as well.

But the uses of the plastic foam extend beyond the skies. Its weight distribution and temperature sensitivity play important roles for severely disabled or bedridden people. Doctors can customize the foam to support patients while reducing the pressure on certain parts of the body to ward off bedsores, for instance. Some companies also have integrated temper foam into prosthetic limbs because it has the same look and feel of skin and decreases the friction between the prosthetic and joints.

Other commercial uses include padding for motorcycle seats, custom body molds for dressmaking and protection for racecar drivers.

Memory foam is an open cell foam that compresses fully and reverts to its original form.

Memory foam is an open cell foam that compresses fully and reverts to its original form.Image Credit: Dr. Dennis Kunkel/Getty Images

7. Ear Thermometer

Taking y­our temperature when sick can be tricky business. A standard mercury thermometercan prove difficult to read, and a rectal one is just plain uncomfortable. In 1991, infrared thermometers that you place into your ears took the work out of it, simplifying and speeding up the process.

Diatek, which developed the first of these kinds of thermometers, saw a need to reduce the amount of time nurses spend taking temperatures. With around one billion temperature readings taken in hospitals in the United States each year and a shortage of nurses, the company set out to shave off the precious minutes otherwise required to watch mercury rise . Instead, Diatek took advantage of NASA’sprevious advancements in measuring the temperature of stars with infrared technology.

Together with NASA’s Jet Propulsion Lab, the company invented an infrared sensor that serves as the thermometer. Aural thermometers with these infrared sensors take your temperature by measuring the amount of energy your eardrum gives off into the ear canal . Since the eardrum is inside our bodies, it acts as an accurate sensor for the energy, or heat, inside of our bodies that increases when we get sick. Hospital models can perform a temperature reading in less than two seconds .

Aural thermometers use an infrared sensor to measure the temperature of energy radiating from your ear drum.

Aural thermometers use an infrared sensor to measure the temperature of energy radiating from your ear drum.Image Credit: Eric Audras/Getty Images

6. Shoe Insoles

Wh­en Neil Armstrong famously spoke of “one giant leap for mankind,” he probably didn’t foresee the literal connotation it would come to have. Today’s athletic shoes have borrowed the technology of the moon boots that first took that leap.

The space suit designed for the Apollo missions included specially-made boots that put a spring in astronaut’s steps while providing ventilation. Athletic shoe companies have taken this technology and adopted it to construct better shoes that lessen the impact on your feet and legs.

For instance, in the mid-1980s, shoe company KangaROOS USA applied the principles and materials in moon boots to a new line of athletic shoes. With help from NASA, KangaROOS patented a Dynacoil three-dimensional polyurethane foam fabric that distributes the force on your feet that happens when you walk or run . By coiling the fibers within the fabric, the KangaROOS absorb the energy from your foot hitting the ground, rebounding it back to your feet.

Another shoe manufacturer, AVIA, also converted moon boot technology to use in athletic shoes . The patented AVIA compression chamber provided shock absorption and spring in the shoes for longer periods of use.

Space boot technology in athletic shoes is meant to put more spring in your step.

Space boot technology in athletic shoes is meant to put more spring in your step.Image Credit: Dirk Anschutz/Getty Images

5. Long-distance Telecommunications

The ability to carry on long-distance telephone conversations did ­not happen overnight. It doesn’t link back to one specific NASA invention — improved telecommunication took place over decades of work.

Before humans were sent into space, NASA built satellites that could communicate with people on the ground about what outer space was like. Using similar satellite technology, around 200 communication satellites orbit the globe each day. These satellites send and receive messages that allow us to call our friends in Beijing when we’re in Boston. NASA monitors the locations and health of many of these satellites to ensure that we can continue to talk to people around the corner or overseas.

4. Adjustable Smoke Detector

Where there’s smoke, there’s fireNASA engineers knew that simple fact when they were designing Skylab in the 1970s. Skylab was the first U.S. space station, and the astronautswould need to know if a fire had started or if noxious gases were loose in the vehicle. Teaming up with Honeywell Corporation, NASA invented the first adjustable smoke detector with different sensitivity levels to prevent false alarms.

You can read about smoke detectors in more detail in How Smoke Detectors Work, but the first one to hit the consumer market is called the ionization smoke detector. That essentially means that it uses a radioactive element called americium-241 to spot smoke or harmful gasses. When clean air particles of oxygen and nitrogen move through smoke detectors, the americium-241 ionizes them, which creates an electrical current. If foreign smoke particles enter the smoke detector, it disrupts that interaction, triggering the alarm.

NASA and Honeywell Corporation developed a smoke detector for the first U.S. space station, Skylab.

NASA and Honeywell Corporation developed a smoke detector for the first U.S. space station, Skylab.Image Credit: Steven Puetzer/Getty Images

3. Safety Grooving

Carving a gro­ove into concrete may not sound like much of an innovation, but it certainly keeps us safe on the roads. Also called safety grooving, this simple, yet lifesaving, process inserts long, shallow channels into pavement on runways and roads. These indentions in the concrete divert excess water from the surface to reduce the amount of water between tires and the runway or road. This increases the friction between wheels and concrete, improving vehicle safety.

Safety grooving was first experimented with at NASA’s Langely Research Center in the 1960s as a way to improve safety for aircraft taking off on wet runways. Once people realized how well it worked, transportation engineers began applying the same techniques to highways. According to NASA, safety grooving has reduced highway accidents by 85 percent . Cars hydroplane when water between tires and the road actually separates the two from each other.

You can find other examples of safety grooving at pedestrian crosswalks, around swimming pools and in animal pens. This innovation has generated an entire industry, represented by the International Grooving & Grinding Association .

Safety grooves provide safety on airport runways by increasing the friction between the concrete and airplane tires.

Safety grooves provide safety on airport runways by increasing the friction between the concrete and airplane tires.Image Credit: Andrew Holt/Getty Images

2. Cordless Tools

When you’re sucking up bits of dirt or crumbs around the house with a handheld cordlessvacuum, you are actually using the same technology that astronauts used on the moon. Although Black & Decker had already invented the first battery-powered tools in 1961 , the NASA-related research helped refine the technology that led to lightweight, cordless medical instruments, hand-held vacuum cleaners and other tools.

In the mid-1960s, to prepare for the Apollo missions to the moon, NASA needed a tool that astronauts could use to obtain samples of rocks and soil. The drill had to be lightweight, compact and powerful enough to dig deep into the surface of the moon. Since rigging up a cord to a drill in outer space would be a difficult feat, NASA and Black & Decker invented a battery-powered, magnet-motor drill . Working in the context of a limited space environment, Black & Decker developed a computer program for the tool that reduced the amount of power expended during use to maximize battery life.

After the NASA project, Black & Decker applied the same principles to make other lightweight, battery-powered tools for everyday consumers.

Handymen of the world, rejoice. NASA's Apollo mission led Black & Decker to refine their cordless power tools.

Handymen of the world, rejoice. NASA’s Apollo mission led Black & Decker to refine their cordless power tools.Image Credit: Tetra Images/Getty Images

1. Water Filters

Water is the essential ingredient to human survival. Since people cannot live without wate­r, the ability to convert contaminated water to pure water is an incredibly important scientific achievement.

Astronauts needed a way to cleanse water they take up into space, since bacteria and sickness would be highly problematic. Water filter technology had existed since the early 1950s, butNASA wanted to know how to clean water in more extreme situations and keep it clean for longer periods of time.

If you look at a water filter, you can usually detect small chunks of charcoal inside of them. Sometimes, when you first use a water filter, you’ll even notice tiny black flecks from those chunks. This charcoal is specially activated and contains silver ions that neutralize pathogens in the water. Along with killing bacteria in the water, the filters also prevent further bacterial growth. Companies have borrowed from this same technology to bring us the water filter systems millions of people use at home every day.

Tap water filters trickled down from NASA's need to cleanse water on long space flights.

Tap water filters trickled down from NASA’s need to cleanse water on long space flights.

$3,500 PhoneSat


Scientists at NASA’s Ames Research Center have built the most affordable satellite to date, a $3,500 device the size of a coffee cup that uses an off-the-shelf HTC Nexus One smartphone as a central processor. (A cheap off-the-shelf radio antenna handles communication with the ground.) PhoneSat 1.0, scheduled to launch by the end of this year, will beam back photos of Earth on an amateur radio band for 10 days, or until the battery dies. Subsequent iterations will be capable of much more: PhoneSat 2.0 will have a two-way S-band radio antenna (which most satellites use to communicate with the ground) and solar panels for extended power.


Happening Now: NASA Technology Days – Cleveland OH.

UStream Link

Happening November 28th – 30th at Cleveland Public Auditorium and Conference Center is a one-of-a-kind technology expo. Among the 20 planned speakers attending this event, you will find Mason Peck, NASA’s Chief Technologist. As the chief technology advocate, Peck communicates how NASA technologies benefit space missions and the day-to-day lives of Americans. Other speakers include Michael Gazarik, Tibor Balint, and Gregg Peterson.

The objectives of the event are twofold:

  • Day 1: Technology and Innovation at NASA General Session: An introduction and status update of NASA’s technology programs that explores new approaches to current missions and strives to address challenges for NASA’s future missions. Presentations will delivered by key NASA program executives and leaders throughout the day.
  • Day 2 and 3: A technology exposition will showcase NASA-developed technologies to individuals interested in commercialization or business development partnerships.


Get a comprehensive overview of NASA’s technology programs for space exploration and aeronautics, and discover innovative and advanced technologies which are stimulating the economy and sustaining our nation’s global competitiveness.  NASA’s Tech Days are free and open to the public, registration is required.

  • Learn about the Space Technology Program objectives, successes, and plans for the future
  • Get an in-depth overview of NASA’s potential industry partnerships and opportunities
  • Discuss Agency-wide technology transfer and commercialization efforts
  • Engage with program managers and network with peers on potential collaborative enterprises
  • Explore the technology showcase featuring mature technologies from the Aerospace, Advanced Energy, Automotive , Innovative Manufacturing, and Human Health industries. The demonstrations and exhibits will provide attendees opportunities for networking, business development and forging new relationships , while learning about the leading technologies contributing to American economic growth and innovation