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Dynamic Patterns Research admittedly is not much of a follower of the art forms of hip-hop and rap, so we cannot express any expertise in the artists who work in this genre and their songwriting. However, one of the early hip-hop stars, GZA, or “The Genius,” a founding member of the Wu-Tang Clan is currently marketing his latest album Dark Matter being released in early 2014… this album is apparently inspired by science as it makes an exploration of the cosmos through rap.
Now, our efforts here through Dynamic Patterns Research focus primarily on reaching out to a broad public to bring a greater appreciation for our Universe, and we have already experimented with merging physics and live theatrical entertainment through our first “Science at the Theatre” series production from Dynamic Patterns Theatre of QED: A Play, which had successful showings in Springfield, Jacksonville, and Decatur, Illinois.
But here, at a national level, GZA boldly brings physics appreciation to the genre of hip-hop, which we are extremely excited to see as an unexpected approach. Although hip-hop is out of our skill set, it provides a wonderful example of how mixing informal science education (no matter how informal it might be) with popular cultural artistic forms is an exciting and effective method to increase understanding and appreciation of science to our citizens.
“A Rapper Finds His Muse in the Stars” :: Wall Street Journal Online :: May 30, 2012 [ READ ]
On November 15, 2013, GZA visited a lecture hall at the University of Toronto to provide a sneak peek of his new album. It is a rather unique marketing technique for a hip-hop artist, but one that is entirely appropriate for his latest work of art. Watch this amazing clip … and be inspired:
This just might be an album that Dynamic Patterns Research will have to invest in not only for our archives… but for our own inspiration. It is so refreshing to see informal physics appreciation spread further into the arts. This will help excite more people into considering a little more about how our world works, which will only result in better decision makers, smarter consumers, and more knowledgeable voters.
We attended the Third Annual “Science of a Cocktail Party” supporting the Illinois Science Council in Chicago, Illinois on November 9, 2013, and had a great time spending an evening in the city sipping cocktails, performing scientific experiments and supporting the ISC’s efforts for science outreach.
Having started in 2006 by Monica Metzler, the Illinois Science Council (ISC) is a young non-profit organization that is filling a unique niche in our culture that is vital to the growth and success of our society: science education and outreach to the adult public. This mission was designed from the realizations that the kids seem to receive lots of science education and entertainment opportunities and the kids and adults alike have access to so many wonderful programs for the arts, like through the Illinois Arts Council (of course, we do agree that there needs to be more!). But, for busy adults, keeping tabs on the latest developments in science and technology and enriching oneself with new scientific appreciations is something entirely left to the individual.
With this goal mind, the ISC is similarly focused to the long-term efforts of Dynamic Patterns Research of bringing a greater appreciation to science to a broader public, which is why we were so pleased to have the opportunity to participate and support this particular fundraising event. Both ISC and DPR strongly believe that with an increased appreciation of science and technology, we will have a culture of better decision makers, smarter consumers, more knowledgeable voters, and more well-informed citizens who have an enhanced appreciation of ourselves and our Universe. (Read more about the complete mission of ISC.)
We started off the evening watching the creation of a fascinating cocktail — carefully measured in a beaker, of course — that featured shots delivered via syringe and a beaker lined with pop rocks. It was finished off with a the crack of a glow stick that certainly enhanced the taste and effect (psychologically speaking) of this “totally scientific” and tasty mixed drink.
The event was hosted at the incredibly inspiring showcase office center for the engineering company DIRTT (“Doing It Right This Time”), an international company that provides custom prefabricated interiors. Their engineering philosophy focuses on a 21st Century approach that moves beyond conventional construction to use computing power to go from design, to real-time 3D, to specifications, to the production floor. Environmental sustainability is tied to their bottom line. The aesthetics of this showcase space was outstanding and it was a perfect atmosphere to get excited about science.
Throughout the office space, interactive experiments were setup hosted by volunteer graduate students from Northwestern University. We first hooked our biceps up to custom designed electrodes connected to a cute robot rover, and with each flex of a muscle could control the right or left-handed acceleration of the car. The stronger the contraction the faster it moved. Maneuvering around obstacles meant carefully controlling the timing and strength of each muscle contraction. This seemingly simple electric device showed the power that is already being developed for providing extended limb control to amputees.
Next up was a demonstration of an updated version of the Sesame Street classic “which of these two aren’t like the other” where two seemingly identical images projected on big screens were flashed back-and-forth and you had to visually identify what subtle element was different between each image. This was an interesting test of “spacial blindness” where our brains like to average visual information across our field of view, which can make it challenging to identify little changes that might be obviously sitting right in front of our eyes.
Our neurological faculties were continued to be tested as we sat down to train — within only a few seconds — a specialized infrared sensor with computer software (think Kinect) to track our subtle eye movements with great precision. Using this “wireless control” system, we opened up the favorite game app Fruit Ninja and sliced away at various flying fruit by moving the cursor / machete with only our wiggling gaze.
Our two kids are pretty good at this slicing and dicing game using their fingers on a touch screen, and would certainly have been excited and jealous to see their parents concur the game with only their eyes. Needless to say, Michelle beat out Matthew’s score by a few points to rein champion in this fun visual remote control game.
Equilibrium and balance are essential feelings that we certainly take for granted. So, to better appreciate how our inner ear keeps us on our toes, we allowed Northwestern graduate students to connect two electrodes behind our ears (waivers had to be signed with both our printed name and our signature, so we knew it was serious) that were connected to a little black box with a switch. Electrical signals were passed through on one side or the other — a little tickle could be felt — and with eyes closed the body soon started falling without any awareness from the brain until a saving hand was felt on the shoulder to stop the tumble before it was too late.
We next tested our visual system’s interpretation of color as we crowded into a small closet — one which DIRRT likely did not design with the original intent for use by multiple bodies — that was illuminated by only a single wavelength of light somewhere in the green-yellow spectrum. We each inspected a handful of jellybeans only to realize that their individual colors were indiscernible as only a limited number of wavelengths were reflected (or re-radiated) from their surface atoms since they were only being excited by a single incident wavelength.
Our skin tones also made it look like the zombie apocalypse was going to originate from this very closet as a grayish matrix pattern appeared making us look rather un-dead.
The final technical demonstration we enjoyed was the MakerBot 3D printing system, which was creating before our very eyes a detailed three-dimensional model of a mansion with spires, windows, and brick walls. The detail and resolution being swiftly layered on the platform was quite exciting and the efficiency of creating an effective “solid” structure by forming a honeycomb pattern on the inside of the building was ingenious. Since Matthew performs 3D model printing routinely in his professional career of fine jewelry design and manufacturing, which requires much higher resolution than displayed by this MakerBot, it was also interesting to see that the printed material would cool and solidify fast enough to essentially be printed in “mid-air” allowing for overhanging structures to be printed without a supporting material.
A great deal of kudos must be showered down upon Monica Metzler and the ISC organization for not only hosting a wonderfully geeky, interesting, and fun evening in Chicago, but for the great mission and efforts that they have taken on to support science outreach to a broader adult population. Along with the many sponsors of the evening, including American Science & Surplus and the Hogan Marren, Ltd. law firm in Chicago, Dynamic Patterns Research is proud to be an attending supporter of the event, and we do anticipate continued support and interaction with the organization moving forward.
It is groups like the ISC that should become prevalent in every state to help launch new initiatives in science appreciation that will drive — with its effective grass-roots approach — more of our citizens into a higher-level understanding of how our Universe works, with advantages that will trickle down into our every days lives of choices and behaviors.
And what better way to complete the evening filled with science, friends, and fun … and complimentary wine from Terlato Wines International and wonderfully tasty beer from Metropolitan Brewing of Chicago … but to pick up a chisel and hammer and break off our own chunks of fine chocolate courtesy of the Blommer Chocolate Company.
If you are interested in learning more about the Illinois Science Council and how you can participate and support their efforts, please consider getting involved with the ISC. If you would like to connect more with Dynamic Patterns Research and find out what sort of goals and activities we are working on in Central Illinois, please contact us today with your interests and ideas, and socially connect with us on Facebook.
Dynamic Patterns Theatre recently launched their first production in the new Science at the Theatre Series, QED: A Play. This funny, touching, and educational show featuring a day in the of life Nobel Laureate Prof. Richard Feynman is written by Peter Parnell and stars central Illinois actor Al Scheider.
With their combined background of art, literature, and physics, Matthew and Michelle Dearing have wanted to develop a unique and interesting theatrical experience that merges quality live entertainment with an element of informal education that is primed for a broad public audience. Interestingly, there is a significant library of great theatre that revolves around scientific themes and ideas, and dynamic patterns theatre explores this genre in its new “Science at the Theatre” Series.
“I believe it is critical for a broader public in our culture to have an increased general appreciation for science. By using creative venues for informal education opportunities, which is currently a major goal of the National Science Foundation, we can reach out to audiences searching for quality and memorable theatrical entertainment, while exposing them to inspiring and exciting ideas from science,” said Matthew T. Dearing, co-producer of dynamic patterns theatre and director of QED: A Play.
In the show QED, which stands for quantum electrodynamics, the physics model that describes how light and matter interact for which Feynman was awarded the Nobel Prize in 1965, the script weaves Feynman’s professional biography, including the Manhattan Project and the Challenger inquiry, and provides a window into many of his personal emotions and challenges. All the while, the story integrates several great discussions of physics ideas presented for a general audience.
Through a collaboration with local physicists and teachers from regional academic institutions, dynamic patterns theatre developed a new educational and entertainment outreach program. Patrons experienced an informal forum highlighting aspects of Feynman’s life, career and featured science topics discussed during the play. The forum was directed toward a general audience and the panel facilitated informal science interactions with the goal of increasing patrons’ appreciation for science and how the Universe works, if only just a bit.
The panelists included Dr. John Martin, Associate Professor of Astronomy and Physics at the University of Illinois – Springfield, Dr. Brian Carrigan, Assistant Professor of Natural Sciences at Benedictine University, Dr. Joanne Budzien, Assistant Professor of Physics and MacMurray College, Dr. Jeff Chamberlain, Associate Professor and Chair of Physics at Illinois College, and Laurie O’Brien, physics teacher at Glenwood High School.
“My academic background is in physics, so I am personally excited to merge my theatre and science interests into a new cultural event that has not been attempted before in Central Illinois”, said Mr. Dearing.
During the opening weekend of the show at the Hoogland Center for the Arts in Springfield, Illinois, the live panel of regional physicists responded to outstanding questions posed by patrons. With two full-houses in attendance, inquiries from the infinitely large to the infinitesimally small were interactively discussed, and geared toward an informal and non-technical audience.
Over twenty-six questions in all were sorted through on the spot and selected to feature during each performance. From “how many galaxies are in the known universe?” to “why does warm air rise?” and “how is Voyager 1 able to communicate from outside the solar system?”, the panel was energized and tackled each question with their combined years of experience studying the field. Several questions even tested the limits of our current understanding in physics, such as “why is there more matter than anti-matter?” with the only response being: “if you could answer that one, then you’d have the Nobel Prize!” We aptly completed the discussion on Saturday night with an extended explanation on the many options to “how does the Universe end?”
Mr. Dearing said, “This experiment in merging informal science education with live theatrical entertainment has been so interesting to develop, and the lively interactions between the patrons and the panel was exciting to witness. People were truly inspired to dive right in and ask about our universe and wonder about it what it can reveal.”
Additional questions provided by the audiences during the opening weekend are listed below, and we invite you to respond by commenting after this article as to what you think about this experience as an informal educational opportunity.
“Why does the tail of a comet not end? How does it stay ‘alive'”?
“What is the physical difference between a living creature and the same creature when it is dead?”
“Is there any dark matter in the solar system? If not, then how likely is it that there is a huge quantity in the galaxy?”
“How is God in the ‘god’ particle?”
“Can you explain the new age theory that everything comes from nothing as made famous by Dr. Lawrence Krauss?”
“What is the ‘friendliest’ sub-atomic particle?”
“How many fundamental forces are there at last count?”
“Do atoms that are part of a living organism behave differently than those that are part of, say, a rock or a pool of liquid steel?”
“Please discuss the concept of a continually expanding infinite universe. How can something infinity small (the universe at the moment of creation) be uniform in extent? What does it mean to expand infinitely?”
“Did Feynman write a popular text book?”
“What are some of the great discoveries by physicists?”
“Politics and ‘public policy’ aside, what is the reality of global warming: is it real? If so, is modern man to blame?”
“Have there been any major errors discovered in Feynman’s work?”
“Space and time may not be fundamental… comments?”
“Is it true that slide rules are coming back?”
“If all living individuals are a pile of atoms, then how do we define life from non-living things?”
These are some rather impressive questions, and dynamic patterns theatre is honored to have been the first to bring such an IN-TER-ES-TING and unique experience to a general audience in Central Illinois.
In QED: A Play from dynamic patterns theatre, Richard Feynman was portrayed by Al Scheider, a long-time regional actor from Decatur who has performed in over sixty community theatre productions in thirty-seven years, and has directed theater for twelve years. The supporting role of Miriam Field, a young Caltech student, is played by Lynexia Dawn Chigges, who is a LPN with Memorial Physician Services, and has performed on stages from San Diego to Springfield, Illinois. The show was directed by Matthew T. Dearing.
Powerful new science and technological advances are a hallmark of the human species. We have been watching and interacting as new advancements happen in real-time for decades. One of the most memorable moments was when the entire county was glued to television sets in 1969 watching the first human being step directly onto our Moon.
So, although this mass participation of witnessing new science as it happens is not a new experience, Dynamic Patterns Research has been experimenting with “live” commentary and interactions with our users through the social interface of Facebook. Earlier this year, we watched as the Mars Curiosity Rover landed on the Red Planet (read more), and on the day of the event, we hosted a live Facebook comment feed (view). We also created a photo review of live screen shots during the event to commemorate the historic moment:
Today, Dynamic Patterns Research took part in witnessing another important event in human technological achievements: the Red Bull Stratos Mission that sent a human being into the statosphere over 120,000 feet (23 miles) above sea level.
This brave human was Felix Baumgartner and he jumped out of a capsule in a custom fitted pressurized suit to free-fall reaching speeds above the sound barrier… the fastest human being — without a propelling system — ever. The interactive Mission Timeline provides an exciting, and awe-inspiring review of the stages of the flight.
Read the Facebook live comment feed during the Red Bull Stratos Mission
During the live feed event, we took screen shots to document some of the most exciting moments of the flight. With only one glitch of Felix’s helmet potentially not maintaining adequate heat, the entire operation appeared to proceed smoothly. Jumping from around 128,000 feet, you could almost feel the tension across the Internet from everyone watching the live feed together. It was incredible to see a man leap out of a tiny capsule so far above the planet.
More details about this wild and historic jump will be made available after the Red Bull Stratos team analyzes the valuable data collected through the jump. They’ll review what speed he reached, how his body handled the experience, and if similar approaches will be viable for offering safe emergency procedures for astronauts and space tourists of the future.
Watching these technological advancements happen live certainly isn’t citizen science in and of itself. However, the experience is an interesting opportunity for actively reaching out to support another fundamental goal of Dynamic Patterns Research: to bring a greater appreciation for science and a deeper understanding for how the Universe works to a broader public. We believe that everyone doesn’t need to earn a Ph.D. in a scientific field, but it is important that more citizens have a broader and greater appreciation for basic scientific ideas. We make decisions every day from local events in our personal lives to larger considerations that include national political and policy ideas. It’s important that we do not take for granted what we are told from the media and the political leaders of our country, and that we are able to critically evaluate what is happening around us on a daily basis.
Experiencing inspirational scientific events and participating in accessible scientific activities can provide great informal educational opportunities for the public. These experiences will increase our appreciation for the Universe, which is vital for our continued exponentially increasing rate of human advancement.
If you are would like to participate in a future live feed scientific event, become a fan of the Dynamic Patterns Research Facebook page to be notified or subscribe to our mailing list. If you are aware of an upcoming event that DPR should be aware of, please contact us right away.
Earth is once again passing through left-over material from Comet Swift-Tuttle providing us with the annual stellar artistic show of the Perseid Meteor Shower. The best nights to view will be August 11 through 13, 2012 anytime after 10 or 11 pm. The dark sky far from city lights just before dawn is expected to provide the optimal viewing experience. To add to this celestial delight, will be a crescent Moon in alignment with Jupiter and Venus viewable in the eastern sky in the early morning hours.
Focus your gaze toward the Perseus constellation not too far up from the horizon in the north to north-east direction. (Review a detailed sky map.) In darker conditions it might be possible to observe as many as one hundred per hour. If you are in a safe location–in other words, not near a country road–take a blanket and lie down on the ground for a comfortable and relaxing night of sky magic.
If you are fortunate enough to see many meteorites, it’s always fun to count your way to a world record. However, for more than just personal entertainment, NASA’s Meteoroid Environment Office is very interested in knowing precisely how many you see. In fact, they have developed a citizen science smart phone app called ‘Meteor Counter‘ for iPhone and Android to assist anyone in scientifically providing accurate observation counts to the NASA research team. With these crowd-sourced counts, NASA can further develop models of the Perseid meteor debris stream, which will guide future safety plans for orbiting spacecraft.
Of course, not everyone in the Northern hemisphere will have optimal viewing experiences. However, online activities and live viewing of the shower will be available for those late night couch potatoes who would prefer to avoid the hot dog days of August. Courtesy of the great Spaceweather.com, a real-time Perseid Meteor show image gallery is available for viewing actual photos uploaded from amateur astronomers around the world. On the night of August 11 and 12, a live “Up All Night Chat” is also being hosted by NASA with astronomer Bill Cooke and colleagues where they will answer your questions and you will join them in a live video and audio feed of the shower.
So, however you are able to view this spectacle–either interactively online or roaming in the countryside–the annual Perseid meteor shower is a beautiful moment that must be relished. We experience our days focused on the minutia of effectively living in our society, but it is so inspiring to step away, if for only an hour in the middle of the night, to remember that we are only a minuscule element in an amazingly massive and gorgeous universe.
Within a few days (August 6, 12:31 a.m. Central), a robotic representative of humanity will once again return to Mars. As the largest rover to date, the Curiosity‘s exploration mission will further help us understand the neighbor planet, including how it might once have been capable of supporting microscopic life. In addition to Mars’ potential history of life, Curiosity will continue past rovers’ efforts to characterize the climate and geology all in preparation for the ultimate goal: sending our species to the red planet. (Read more about the Mars Science goals.)
Stepping a human foot onto the surface of Mars may be several decades away, at least, but I intently hope that my lifetime will be long enough to witness the event. It was a technological marvel when we arrived on our Moon, but it will be a technological inevitability–mixed with an extreme amount of guts–when we arrive on Mars.
Why should we go?
Do we think we can just be lazy and not care for our home planet, and then be ready to hop over to the next when this one runs dry? This, of course, is nonsensical and is not in the back of anyone’s mind who is seriously working toward Mars. Getting to Mars requires extreme technological advancements, so many of which will benefit humanity at home. The potential for discovering new natural resources can benefit future generations of future generations. Discovering life on Mars, the historical footprint of life, or the lack thereof can each have important implications for understanding our place in the Universe. And, ultimately, successfully inhabiting Mars creates the opportunity for our species to survive if a planetary crisis of an extinction-level event occurs here at home.
We are a species who has evolved in such a way that we are now developing the technology to seed our own survival on another planet. This is not an endeavor for one country or one culture alone, but it is an experience for everyone.
You, one step closer to Mars
And, the time to participate in this experience is already here. This first thing to do is to take a stroll outside after sunset on the evening of August 5, 2012. Look west and observe a beautiful celestial triangle comprising Mars, Saturn, and Spica, one of the brightest stars in the sky, which is actually a binary system located only 260 light years away. Then, head back home and prepare for the online webcast presented by NASA TV, starting at 10:30 pm Central.
The Curiosity rover is much larger than the previous rovers, Spirit and Opportunity, so landing this puppy will be a harrowing experience, for sure. However, with a successful touch-down, proof of our technological advancement for sending larger payloads for future missions will be in the bag.
Once the landing is completed, the exciting new data collection can begin. And is there data! And where there is a lot of data to sort through, there are interesting opportunities for citizen scientists. From previous rovers, there are over 250,000 surface images currently being sorted and cataloged to create a massive topological map of the Martian surface. NASA has opened up this mapping project to citizen scientists through the “Be a Martian” online interface. Using your desktop computer or even your mobile device, including Windows Phone, Android, and iPhone, you can individually review images actually taken by a Mars rover and identify characteristic ground and sky features, help stitch together multiple images, count craters, and learn much more about the wonderful new science underway on Mars.
This is certainly an exciting time in solar system exploration (especially with the two Voyager probes nearing the edge of our system right now), and it is important that you take part in these scientific efforts. NASA really does need help from the masses: you don’t require any Congressional budgetary approvals to begin work. Our personal greater appreciation for what is happening on Mars and what potentials exist deep in its red dirt will help bring our planets closer together and the benefits that will soon be discovered closer to reality.
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