GONE IN 30 SECONDS…

Antares_launch_graphic_ae2

It’s estimated that an average of 8 percent of all commercial rocket launches end in failure.

Multimedia eLearning program by: David A. Johanson © All Rights

David Johanson is a multimedia specialist, CTE instructor and a former Boeing scientific photographer. All content, including photography, graphics and text (unless otherwise noted) was created by the author. To see an alternative graphic format of this program, click on: www.ScienceTechTablet.wordpress.com 

Learning Objectives Of This Program Includes:

≥ Definition and meaning of space law

≥ History and development of space law

≥ History and development of 20TH and 21ST Century Rocket and Launch disasters

≥ How, where and why rocket launch sites and space portals are located on the globe

≥ Potentially life threatening activities and components of rocket launches                           ———————————————————————————————

 

The Antares 110 rocket engines roared as they illuminated their departure from Earth — seconds later, appearing as if mortally wounded, the multi-staged rocket suddenly lost momentum and sank downward, creating an explosive tower of flames. Over the launch site’s PA system an urgent command required all media personnel to leave their equipment and evacuate immediately. It was reported no deaths had occurred — however the total environmental damage, the launch site cleanup and insurance liability issues are yet to be assessed.

Orbital rocket explodes after launch

antares-rocket-explosion-orb3-nasa-photo-BPP_ae3

Here’s NASA video of the unexpected Antares rocket launch disaster.      http://www.youtube.com/watch?v=aL5eddt-iAo

The referenced video below shows, press journalist and photographers ordered to evacuate as the Antares rocket explodes and unleashes toxic clouds of vaporized solid rocket propellant. Winds should be blowing to the east, so that burning propellant dissipates over the Atlantic Ocean — not heading west towards potentially populated areas, as is indicated happening in this video. http://www.youtube.com/watch?v=IclTka711xo

Photograph: Kenneth Brown/Reuters

Photograph: Kenneth Brown/Reuters

On October 31ST, just three days after Orbital Sciences’, Antares rocket launch explosion, Virgin Galactic’s SpaceShipTwo (SS2) disintegrates in an upper altitude reentry over California’s Mojave Desert. Unfortunately the space plane’s pilot was killed, as the remaining components of the craft slammed into an unpopulated area.  http://www.youtube.com/watch?v=dy1k5s7Fbl0 http://www.theguardian.com/science/2014/nov/02/virgin-galactic-spaceshiptwo-crash-investigators-fuel-warnings

orbital_crs3_launch_milestones_e What Goes Up, Must Come Down

Rocket launch projects have always had to contend with laws of physics, in particular, Newton’s law of gravity. Today, these multimillion dollar programs are governed by another set of laws, involving multinational, liability space laws. These binding laws are for protecting individuals, communities and the environment from impacts caused by, man-made objects launched into space or subsequent damage of corporate or national operations in space.

Case Study: The first record of a space law liability incident occurring was in 1962, on a street within Manitowoc, Wisconsin. Apparently, a three-kilogram metal artifact from the Russian’s 1960, Sputnik 4 satellite launch, reentered the atmosphere unannounced, over an unsuspecting Midwest. The Russian’s denied it was theirs, fearing liability under international law. This event, helped set in motion, the 1963 Declaration on Legal Principals Governing the Activities of State in the Exploration and Use of Outer Space. As an international agreement, it puts forth the responsibility to the State which launches or engages in sending objects into space as internationally responsible for damages caused on Earth. In 1967, the agreement was slightly modified and was titled “Outer Space Treaty 1967.”satellite_crash_bpp_e1070

Earth has water covering 70% of its surface — when attempts fail to guide space debris towards open oceans, the chance for these falling objects to hit a populated area increase. Space Law assesses the liability for damages caused by space debris to the nation or agency responsible for its original rocket launch.

Hawa_Futur_BPP_e26

By 1984, the United Nations General Assembly, had adopted five sets of legal principles governing international law and cooperation in space activities. The principles include the following agreements and conventions.”Outer Space Treaty” – the use of Outer Space, including the Moon and other Celestial Bodies (1967 – resolution 2222.) “Rescue Agreement” – the agreement to rescue Astronauts/Cosmonauts, the Return of Astronauts/Cosmonauts and the Return of Objects Launched into Space (1968 – resolution 2345.) “Liability Convention” – the Convention on International Liability for Damaged Caused by Space Objects (1972 – resolution 2777.) “Registration Convention” – the registration of Objects Launched into Outer Space (1975 – resolution 3235.) “Moon Agreement” – the agreement Governing the Activities of States on the Moon and Other Celestial Bodies (1979 – resolution 34/68.)

Sky_look_ BPP_ae208Because so many international languages are used for creating these technical agreements — terms and meanings are often misinterpreted. There are linguistic limitations and a general lack of definitions to adequately cover all the specific space concepts and activities using Space Law. Each Nation has its own agenda and vision concerning the development of space, including corporate, cultural and religious interest, adding to the complexity of governing space.

Although most large “space debris” is monitored with top priority for enabling reentry over uninhabited areas such as oceans and deserts — satellites or sections of rockets still have potential for an unexpected re-entry over an inhabited area.

Cuba Gives A New Meaning To A Cash Cow

Case Study: In November of 1960, the second stage of a U.S. – Thor rocket fell back to Earth and killed a cow grazing in Eastern Cuba. The final settlement required the U.S. Government to pay Cuba $2 million dollars in compensation — creating the world’s first “Cuban Cash Cow.”

Dramatic Rocket Launch Failures Associated With Space Exploration

American physicist, Dr. Robert H. Goddard is the father of modern rocket propulsion. Goddard’s published rocket research during the1920s and 1930s, is what German military scientist used to help develop the liquid fueled V2 rocket, which terrorized Europe towards the end of WWll. The V2 (technical name Aggregat-4 or A4) rocket was the first human made artifact to leave the Earth’s atmosphere and reach into space. This basic design of modern rockets has changed little in the 100 years since Goddard was awarded a U.S. patent in 1914 for a rocket using liquid fuel.

It’s estimated since the 1950s, of the nearly 8,000 rockets launched into space related missions, 8 percent of rocket launches ended in some-type of failure (2012 spacelaunchreport.com.) The resulting anomalies have cost the lives of hundreds of individuals, including; astronauts, cosmonauts and civilians, along with billions of dollars of property and payload losses.

Here’s an abbreviated list of eventful, dramatic and tragic events associated with rocket launches.

A modified V-2 rocket being launch on July 24, 1950. General Electric Company was prime contractor for the launch, Douglas Aircraft Company manufactured the second

A modified V-2 rocket being launch on July 24, 1950. General Electric Company was prime contractor for the launch, Douglas Aircraft Company manufactured the second stage of the rocket & the Jet Propulsion Laboratory (JPL) had major rocket design roles & test instrumentation. This was the first launch from Cape Canaveral, Florida.

A modified V-2 rocket being launch on July 24, 1950. General Electric Company was prime contractor for the launch, Douglas Aircraft Company manufactured the second stage of the rocket & the Jet Propulsion Laboratory (JPL) had major rocket design roles & test instrumentation. This was the first launch from Cape Canaveral, Florida.

stage of the rocket & the Jet Propulsion Laboratory (JPL) had major rocket design roles & test instrumentation. This was the first launch from Cape Canaveral, Florida.                      http://www.youtube.com/watch?v=zVeFkakURXM

Vanguard TV3, December 6, 1957 launched from Cape Canaveral, Florida (U.S.) was the first U.S. attempt at sending a satellite into orbit. A first event of its kind to use a live televised broadcast, which ended with stunned viewers witnessing Vanguard’s explosive failure. Unfortunately, this launch mission was not ready for prime-time and occurred as a reflex reaction to the Soviet Union’s surprise aerospace success of launching the world’s first satellite, Sputnik, on October 23, 1957. http://www.youtube.com/watch?v=zVeFkakURXM

Vostok rocket, March 18, 1980, launched from Plesetsk, Russia (formerly the world’s busiest spaceport). While being refueled the rocket exploded on the launch pad, killing 50, mostly young soldiers. (Source: New York Times article, published September 28, 1989) ⇒ http://www.nytimes.com/1989/09/28/world/1980-soviet-rocket-accident-killed-50.html

Challenger STS-51-L Space Shuttle disaster, January 28, 1986, launched from Kennedy Space Center (U.S.) marked the first U.S. in-flight fatalities. After only 73 seconds from lift-off, faulty O-ring seals failed, releasing hot gases from the solid propellant rocket booster (SRB), which led to a catastrophic failure. Seven crew members were lost, including Christy McAullife, selected by NASA’s Teacher in Space Program. McAullife was the first civilian to be trained as an astronaut — she would have been the first civilian to enter space, but tragically, the flight ended a short distance before reaching the edge of space. Recovery efforts for Challenger were the most expensive of any rocket launch disaster to date.   http://www.history.com/topics/challenger-disaster/videos/engineering-disasters—challenger

Long Mark 3B rocket launch, payload: American communication satellite, built by Space Systems Loral – February 14, 1996 in Xichang (China) – two seconds into launch, rocket pitched over just after clearing the launch tower and accelerated horizontally a few hundred feet off the ground, before hitting a hill 22 seconds into its flight. The rocket slammed into a hillside exploding in a fireball above a nearby town, it’s estimated at least 100 people died in the resulting aftermath. This event was most likely the worst rocket launch disaster to date, due to the massive loss of human life. Disaster at Xichang | History of Flight | Air & Space Magazine  ⇒ http://www.airspacemag.com/history-of-flight/disaster-at-xichang-2873673/?c=y%3Fno-ist  video of the rocket launch disaster https://www.youtube.com/watch?v=8_EnrVf9u8s

Antares rocket launch explosion with firebrands cascading from solid propellant — NASA photo

Antares rocket launch explosion with ‘firebrands’ cascading from solid propellant — NASA photo

Delta 2, rocket launch – January 1997, Cape Canaveral (U.S.) – this rocket carried a new GPS satellite and ends in a spectacular explosion. Video link included to show examples of worst case scenario of a rocket exploding only seconds after launch (note brightly burning rocket propellant cascading to the ground is known as “firebrand”.) The short video has an interview with Chester Whitehair, former VP of Space Launch Operations Aerospace Corporation, who describes how the burning debris and toxic hydrochloric gas cloud fell into the Atlantic Ocean from the rocket explosion. Rocket launch sites and Spaceports are geographically chosen to mitigate rocket launch accidents. US rocket disasters    http://www.youtube.com/watch?v=Y4-Idv6HnH8

Titan 4, rocket launch – August 1998, Cape Canaveral (U.S.) the last launch of a Titan rocket – with a military, top-secret satellite payload, was the most expensive rocket disaster to date – estimated loss of $ 1.3 Billion dollars.                                                        http://www.military.com/video/explosions/blast/titan-iv-explosion-at-cape-canaveral/1137853205001/

VLS-3 rocket, launch – August 2003, Alcantara (Brazil) – rocket exploded on the launch pad when the rocket booster was accidentally initiated during test 72 hours before its scheduled launch. Reports of at least 21 people were killed at the site.                               http://usatoday30.usatoday.com/news/world/2003-08-22-brazil-rocket_x.htmvideo of the rocket launch disaster ⇒ https://www.youtube.com/watch?v=8_EnrVf9u8s 

Rocket launch debris fields are color keyed in red & Links to space port's web sites included. (CLICK ON MAP TO ENLARGE) Quiz ??? - 1.) Do you see any similarities in the geographic locations used for these launch sites? 2.) What advantages do these locations have regarding "Space Law?" 3.) For most rocket launches, which site has the greatest geographic advantage & why? 4.) Which has the least advantage & why?

Rocket launch debris fields are color keyed in red & Links to space port’s web sites included. (CLICK ON MAP TO ENLARGE) Quiz ??? – 1.) Do you see any similarities in the geographic locations used for these launch sites? 2.) What advantages do these locations have regarding “Space Law?” 3.) For most rocket launches, which site has the greatest geographic advantage & why? 4.) Which has the least advantage & why?

Rocket launch debris fields are color keyed in red & Links to space port’s web sites included. (CLICK ON MAP TO ENLARGE) Quiz ??? – 1.) Do you see any similarities in the geographic locations used for these launch sites? 2.) What advantages do these locations have regarding “Space Law?” 3.) For most rocket launches, which site has the greatest geographic advantage & why? 4.) Which has the least advantage & why?
Location, location, location is a huge benefit for rocket launch sites.

If you zoom into the above World map with its rocket launch sites, you’ll notice they’re located in remote, uninhabited areas. Another feature most space ports share is their proximity to large bodies of water, which are located in an easterly direction (with the exception of the U.S. Vandenberg site.) Rockets are launched over oceans to minimize   the risk to people or property from catastrophic accidents, which includes falling launch fuel_tank_bpp_e82debris and toxic clouds of burnt fuel propellant. Liability from a launch vehicle is the main reason why all ships and aircraft are restricted from being in water anywhere near or underneath a rocket’s flight path. Rocket’s debris can contain highly toxic forms of unspent fuel and oxidizer, especially from solid propellant fuels.

The majority of rockets are launched in an easterly direction, due to the Earth’s easterly rotation. This procedure gives the rocket extra momentum to help escape the Earth’s gravitational pull. An exception for an east directional launch is a Vandenberg site in California. This site launches most of its rockets south for polar orbits, which is used by a majority of communication and mapping satellites.

Launching rockets closer to the equator gives a launch vehicle one more advantage — extra velocity is gained from the Earth’s rotation near its equator. At the equator, our planet spins at a speed of 1675 kph (1040 mph,) compared to a spot near the Arctic Circle, which moves at a slower, 736 kph (457 mph.) Even the smallest advantage gained in velocity means a rocket requires less fuel (13 percent less fuel required for equatorial launches) to reach “escape velocity.” This fuel savings translates to a lighter launch vehicle, making the critical transition of leaving Earth’s gravitational field quicker.

International space law is emerging from its infancy, attempting to clearly define itself from a nebulous amalgam of; agreements, amendments, codes, rules, regulations, jurisdictions,

Photo-illustration: David A Johanson — of space debris using a NASA photo of Skylab

Photo-illustration: David A Johanson — of space debris using a NASA photo of Skylab

treaties and non-binding measures. There exists today, enough legal framework for commercial interest to move cautiously towards developing outer space. However, with the unforeseen variables and dynamics of space activities, exceptions will be made & rules will be stretched, if not broken to accommodate necessity, justification or exculpation. ~

Part 1 of 2 editions – please check back soon for the conclusion of this essay.

The next edition of the Space Law series includes:

Potential Minefield Effects From Space Debris And The Regulatory Laws To Help Clean It Up.

Will Asteroid Mining Become The Next Big Gold Rush And What Laws Will Keep The Frontier Order?

Music video portal of rocket launches (nostalgia enriched content):

Boards of Canada – Dawn Chorus  http://www.youtube.com/watch?v=rfVfRWv7igg

Boards of Canada – Gemini – http://vimeo.com/68087306

Boards of Canada – Music is Math http://www.youtube.com/watch?v=F7bKe_Zgk4o

Links And Resources, For Space Law And Related Issues

http://definitions.uslegal.com/s/space-law/

http://www.thespacereview.com/article/2588/1

https://www.gwu.edu/~spi/assets/docs/AGuidetoSpaceLawTerms.pdf

http://digitalcommons.unl.edu/spacelaw/38/

 

The Space Review: International space law and commercial space activities: the rules do apply Outlook on Space Law Over the Next 30 Years: Essays Published for the 30th – Google Books “SPACE FOR DISPUTE SETTLEMENT MECHANISMS – DISPUTE RESOLUTION MECHANISM” by Frans G. von der Dunk Asteroid mining: US company looks to space for precious metal | Science | The Guardian Planetary Resources – The Asteroid Mining Company – News 5 of the Worst Space Launch Failures | Wired Science | Wired.com Orbital Debris: A Technical Assessment NASA Orbital Debris FAQs ‎orbitaldebris.jsc.nasa.gov/library/IAR_95_Document.pdf A Minefield in Earth Orbit: How Space Debris Is Spinning Out of Control [Interactive]: Scientific American SpaceX signs lease agreement at spaceport to test reusable rocket – latimes.com Earth’s rotation – Wikipedia, the free encyclopedia The Space Review: Spacecraft stats and insights Space Launch Report V-2 rocket – Wikipedia, the free encyclopedia Billionaire Paul Allen gets V-2 rocket for aviation museum near Seattle – Science Germany conducts first successful V-2 rocket test — History.com This Day in History — 10/3/1942

http://www.nbcnews.com/science/billionaire-paul-allen-gets-v-2-rocket-aviation-museum-near-1C9990063

WA Okang SatDshBP_e1103

 

 

 

 

 

[contact-form][contact-field label='Name' type='name' class="GINGER_SOFATWARE_correct">/][contact-field label='Email' type='email' class="GINGER_SOFATWARE_correct">/][contact-field label='Website' class="GINGER_SOFATWARE_correct">/][contact-field label='Comment' type='textarea' class="GINGER_SOFATWARE_correct">/][/contact-form]

 

Advertisements

The Environment, Our Earth’s Lost Frontier?

Arctic_Tundra_Oil_Field_e1003

(On the left horizon, hydrocarbons are being released into the air, blemishes an otherwise clear arctic day.)

Multimedia eLearning by: David A. Johanson © All Rights

All Roads Lead to Nowhere

Early in my career as a photographer I received assignments which took me above the Arctic Circle. Construction companies and architects working for oil companies in Alaska’s North Slope hired me to photograph their on going developments. At that time the Prudhoe Bay oil field’s production had peaked due to years of sustained extraction. A new oil field near the Kurparuk River, west of Prudhoe Bay was the site I was sent to. The Kuparuk oil field is the second largest oil field in North America by area, and traveling by aircraft was the way I moved from site to site.

Roads and construction sites above the arctic circle, rely on heaps of gravel placed over the tundra’s surface to prevent them from sinking into the earth when the ground thaws. Traveling less than 100 feet off the tundra, at 150 miles per hour, the pilot of the Hughes 500D helicopter races to horizon. The orange shelters at the edge of the road, is our intended destination. These metallic enclosures are used to pump hot steam down-into the wells, for recovering a thick slurry of oil, locked deep below the frozen tundra.

Envirn_Indust_BPP_e0014

Arctic_const_Workers_A1104

Environmental stock photography for a New Dawn.

Alaska, the Last Frontier  

Flying above an older oil facility, it can clearly be seen — the years of oil production have left Rorschach-like-ink-blots, splattered on the surrounding tundra. I have not been to the oil fields for many years, but I was told at the time — ‘oil companies were trying to cleaning up their act, while leaving a smaller footprint.’ I pray what I heard was true, but as we know — accidents both large and small continue to happen.

On a clear day while flying above vast stretches of tundra, we viewed a small monument, which marked where Will Rogers and Wiley Post had been killed in a plane crash. I spotted dozens of randomly placed metallic cylinders near the site. My bush pilot brought the airplane down for a closer look and cynically said, those are abandoned, empty 50 gallon oil barrels… known as —“Alaska’s state flower.”

Environmental stock photography for a New Dawn.

 

 

 

 

 

An old barn in the shadow of Anacortes oil refinery.
There’s something charming about old barns as they weather over the years. This one with its organic wood earth tones, is contrasted against the metallic cylinders of an oil refinery in Anacortes, about 70 miles north of Seattle, on the edge of Puget Sound. On April 2, 2010 five workers were killed at this oil refinery as an explosion and fire ripped through part of the refinery.

Environmental stock photography for a New Dawn.

 

EARTH Day seems to have more meaning as the impact of global warming, seismic and volcanic activity focuses our attention on the big picture.

Environmental stock photography for a New Dawn.

Our world is delicately balanced, spinning through space, with us all aboard along for the journey. At least one day, one week, out of a busy calendar year, we’re asked to give homage to our planet by being aware of its’ environment. In honor of this day, I’m sending out photographs and prose that reflect current events affecting our world’s environment.

30756_1424678490440_7205732_n

Earth Day 2010

 

 

 

 

 

 

“One World, One Planet.”
A fascinating, outdoor setting, with an incredibly diverse ecosystems is the Rainforest of the Olympic National Forest. It was a late summer day when I hiked down form Lake Osset, to where the rainforest meets the Pacific Ocean. This area has never been logged, the old growth forest here stands as it has for thousands of years.

After setting up a tent I walked along a trail leading to a lush meadow. A twig snapped a few feet away from me, revealing two unusual looking deer, grassing in the tall grass. Never have I encountered wildlife, where if I desired, could reach out and touch it. The deer could plainly see me; yet they made no effort to scramble away or even conceal themselves. The reason this wildlife seems tame is that they reside within a remote National park, where no hunting is allowed.  Slowly, I raised my camera loaded with my favorite Kodachrome transparency film. As I began to take a series of photos, I noticed unusual patterned markings on the deer’s body.  Refocusing my lens, amazingly, what appeared was a map of the earth, patterned on the deer. Last year I scanned the transparency, then enhancing it with Photoshop, the world continents clearly revealed themselves in what I’ve themed
– “One Planet, One World.”

Cabin_June_27BPP_2010_348
“Paradise Lost” –
Have you ever gone back to a place and found what you had once treasured was missing? The longing for beauty, which once was, is a reoccurring theme used to select many photos in this essay.

Pearl_Harb_VC_BPP_a1406

 

Earth Day 2010

 

 

 

 

 

“Paradise Lost” –
The enchanting scene with a man gazing into the pools of water is from Whatcom Falls. My college roommate sitting on the moss-covered boulders is Mark Nishimura, a fine-art photographer, originally from the state of Hawaii. Mark asked that I photograph him in a place that was reminiscent of the waterfalls back home on Ohau. I used a Hasselblad and slow speed transparency film to help capture the dynamic range of shadows and highlights. This was one of my favorite places to photograph when I attended school at Western Washington University, in Bellingham. Many students would spend summer afternoons cooling off, diving and swimming amongst the deep pools of water. A short walk into Whatcom Park, placed you in a lush environment, under a thick canopy of evergreen trees, moss-covered vegetation with sounds of cascading waterfalls running throughout it.  Environmental Photography

Some years after this photo was taken, tragedy struck, instantly incinerating this charming environment. A refinery’s 16-inch fuel-line running next to the park, ruptured, spewing nearly 300 thousand gallons of gasoline into the creek. In an instant, the fuel ignited, creating a river of fire, which killed three youths fishing in the creek and sending a toxic vapor cloud six miles into the atmosphere. The fireball and plume of smoke was visible from Anacortes to Vancouver, B.C., Canada.  Now, ten years after the catastrophe, I plan to return to the falls and photograph the site with hopes that nature’s healing process is transforming it back to the way it use to be.

Environmental Photography

 

 

 

 

Environmental Photography

 

 

 

 

Environmental Photography

Earth Day 2014

“Paradise Found” –
I remember a photography teacher I had in college took us to a beach near Chukanut Drive. When he gave out the assignment, most of the class groaned; we were to pick a spot on the beach, stay within a 25-foot diameter and shoot a series of photos to tell a story. Most of us wanted to take our cameras and explore what the entire beach had to offer. Surprisingly, it was one of the best assignments I was ever given in school; because it broke the stereotype about how you were suppose to see. Within that small domain we discovered, a whole universe was waiting to reveal itself before the camera lens. That photography lesson has stuck with me since, although world travel is a passion, I realize that I really didn’t have to go any farther than my backyard to find great images and no matter what, if resourceful, amazing subjects can be found everywhere.

My home’s back yard is like an outdoor studio full of indigenous plants, birds and amphibians. We avoid using pesticides and only use natural fertilizers on the yard and garden. One afternoon I found this charming tree frog sitting on a leaf, warming itself in the sunshine. With a macro lens on my camera, I was able to get within inches of the frog and let the background merge into soft abstract forms. The photo makes me smile whenever I see it because it reminds me, I never have to go far to reconnect with nature.

Environmental Photography

On a moonlit night, traveling the back-roads of Washington and Oregon —
we found countless sentinels standing guard against the cold breeze of darkening skies.

 

 

 

 

Environmental Photography                  

The Future is Now…
Working tirelessly with the wind, turbines spin against the moon backdrop, producing ‘clean energy’ for the Pacific Northwest. Throughout the Americas and many other places in the world, the tide is turning as we move more towards wind and solar for a clean, renewable energy source.

World_box_BPP_et424

 

 

 

 

 

 

 

 

Web Links For Earth Day 

http://abclocal.go.com/wls/story?section=news/local/illinois&id=9511926

http://newyork.cbslocal.com/2014/04/22/tri-state-area-commemorating-earth-day-with-series-of-events/

 

http://www.earthday.org

http://news.nationalgeographic.com/news/2014/04/140421-earth-day-2014-facts-environment-epa/

http://www.slate.com/blogs/bad_astronomy/2014/04/22/earth_day_2014_a_few_fun_facts_about_our_planet.html

 

THE MARTIAN PROPHECIES – Earth’s Conquest of the Red Planet.

 
Mars Frontier series

Early Mars terraforming site inspected by an American first-generation colonist. 

.

Essay and multimedia content by: David Anthony Johanson ©All writing and photography within this program (unless indicated) was produced by the author.

If you would like to see this essay in an alternative graphic format please visit our Science Tech Tablet site at:    http://sciencetechtablet.wordpress.com/

Fu-tur-ism                                                                                                                               noun                                                                                                                          

1. Concern with events and trends of the future or which anticipate the future.

Any sufficiently advanced technology is indistinguishable from magic. — Arthur C. Clarke

.

How Earth Conquered Mars And Successfully Colonized The Red Planet

March 2054

Mars Frontier series

.

The Evolutionary Mastery Of Mars

In a forty-year period, the march towards making Mars inhabitable, astonished the most optimistic futurist. A sequence of technological events and economic opportunities (commonly known as the Third Industrial Revolution) converged seamlessly, allowing for safe and efficient journeys to the fourth planet from our Sun. Now, human life has sustained itself and is beginning to thrive on Martian soil.

On Earth, three decades into the third millennium, unstable global weather patterns caused by environmental abuse to our oceans, created extreme ripple effects with appalling famines and droughts.  Then, suddenly a horrific rain of fire appeared as a sequence of catastrophic meteorite strikes plagued Earth— hastening humanity’s efforts to reach for the red planet. Of all the planets in our solar system — Mars has proven the best hope as a lifeboat and as a refuge for life taking hold.

Collaboration from the World’s nations, aligned rapidly to expand the colonies beyond Earth’s low-orbit. These outposts are in a stable formation at Sun-Earth Lagrangian Points:  L2, L4,  L5 and beyond. The various sites are used to support manufacturing, exploration and asteroid mining operations. Once established, they became “stepping-stones” towards Mars. Distant supply and launch stations are currently expanding at Sun-Mars Lagrangian points, circulating Mars.

mars-map

Triumph Through Large Scale Asteroid Mining 

After the first three decades of daring space exploration in the late Twentieth Century, momentum was lost from lack of compelling mission. Chemical propulsion system limitations and lack of aerospace manufacturing beyond Earth’s orbit, slowed space exploration’s progress. Major superpowers lacked funding and political will to achieve great advances beyond low Earth Orbit.

As the Twenty-First Century progressed, collaboration of prime aerospace companies Boeing and Space X, developed, hybrid launch vehicles to accelerate humanity’s expanded presence in space. Private commercial ventures determined a great potential existed for mining valuable resources from near Earth asteroids and the Moon. The first company to successfully begin asteroid mining were Planetary Resources, with funding provided by wealthy technology luminaries. Mars Frontier series

.

.

.

.

Three-D Printing In Space – A Bridge To Infinity 

Early in the Twenty-first Century, new advanced technological tools were developed for flexible and efficient manufacturing. After revolutionary 3-D printing operations took hold in space, opportunities expanded rapidly to develop massive infrastructure beyond Earth’s orbit. Three-D printing devices made prefabrication of immense living and working sites possible on the Moon and various stationary points well beyond Earth’s gravitational influence.

Mars Frontier series

.

Three-D printing for manufacturing space-station stepping-stones

.

Beyond Earth’s Orbit — Islands In Space

As the population of human enterprises rapidly expanded into deep space, exploration of Mars became practical and irresistible.

Using a spectrum of cybernetic applications, including artificial intelligences (AI), atomically precise manufacturing (APM) and 3-D printing provided cost-effective infrastructure manufacturing  to expand beyond Earth’s low orbit. The network of space station developments offers a growing population of skilled aerospace workers — dynamic living and work environments.

Molecular nanotechnology (MNT) produces an endless variety of manufactured goods for the inhabitants of interplanetary space. As the initial space stations quickly expanded and connected to one another, they became known as “Island Stations.” Adopting interplanetary codes for infrastructure support commonality is maintained for all inhabitants and guest visits by the National Aeronautics and Space Administration (NASA) and European Space Agency (ESA).

A network of stepping stone islands, which initially were used to extend the reach of asteroid mining operations from stable points beyond a low Earth orbit, is essential for colonizing Mars.Island_stations_eBPP_2054

Approximately 10 million miles from Earth, a network of station islands is positioned as a gateway point to Mars. These station networks are mutually protected from solar storms/flares by their own artificial magnetosphere. Earth (blue dot) and its moon can be seen near the upper-center part of the photo.

Mars statiBPP_a2054

Revolution — Electro Magnetic Propulsion And Magnetic Shield Protective  Fields 

Revolutionary, electromagnetic propulsion systems, using super-cooled, conducting magnets and magnetoplasmadynamic (MPD) were developed for vastly superior performance over conventional chemical rockets. The time required to reach destinations such as Mars has been reduced significantly, by a factor of one year to less than two weeks. Initial funding from NASA and ESA, created a collaboration between Boeing, SpaceX and Virgin Galatic to produce these hybrid propulsion space craft. http://www.cbsnews.com/news/boeing-spacex-to-team-with-nasa-on-space-taxi/ 

elctromag_propls_a0221

The greatest threat to human space travel and colonization is from solar winds of magnetized plasma carrying protons and alpha particles, which can break down DNA and lead to cancer. A magnetic coil shield system allows space craft protection from most harmful radiation by creating its own magnetosphere. This shielding system harnesses for universal applications to protect space station populations, inner planetary travelers and Martian colonies.

A high energy accelerator was developed on Mars using spectrums of solar energy to recreate a magnetic field to help produce a sustainable atmosphere.

electromag_propolsion_0340

                        Mars Frontier series

.

.

.

.

.

   An electromagnetic propulsion cargo ship as it begins entering a high energy state.

.

Star_lifter_BPP_a2054

 

Electromagnetic propulsion “asteroid lifter” encounters solar wind storm.                                    

Solar_System_(JPEG)

NASA illustration.

.

Genetic Modification Through Astrobiology Provides Essential Benefits For Human Space Travelers

Evolutionary biology has provided advantages to meet the challenges of human travel into deep space.

Mars Frontier seriesThe first generation of genetically modified humans was created to limit the effects and risk from extended space travel. Microchip circuitry imbedded into tissue, gave humans expanded capabilities to assure space survivability, productivity, and flight operations. To combat muscle degradation from zero gravity-exposure, contractile protein levels were increased in muscle tissue. Mars Frontier series

.

Settlements On The Red Planet And Stages Of Terraforming

To survive solar radiation effects, early Mar’s settlers lived bellow the planet’s regolith (soil).  Within less than a decade, the colonies developed their own localized magnetosphere, which became encapsulated environments within translucent domes — creating an atmospheric oasis. These aerodynamic structures offer shielding from dust storms and subzero temperatures. Now, an enriched quality of life on Mars includes ever-expanding domains of Earth like atmosphere for expanded development and life above the surface of the red planet.

Meteor showers during a Martian sunrise
Meteor showers streaming above craters and cliffs during a Martian sunrise.

Massive mirrors are fixed in orbit above Mars for reflecting warmth back onto its surface, to provide a more temperate climate. Reflected light directed at Martian polar ice caps and its Carbon dioxide atmosphere of CO2 helps to keep thermal energy near the planet’s surface. As a result, a thermal runaway greenhouse effect is created to help build a thicker atmosphere. Release of microorganisms on the red the planet dramatically accelerates production, for intensifying greenhouse gas expansion.

Directing small asteroids with rich concentrations of ammonia to impact nitrate beds on Mars, releases high volumes of oxygen and nitrogen. These highly controlled asteroid strikes are providing substantial positive results to help develop an enriched atmosphere.

Mars_valley_BPP_ae61

Nanotechnology is now employed on the surface of Mars and is dramatically altering landscape regions within various craters. Genetically modified plant forms are successfully taking hold and surviving some test environments. In conclusion, all of these achievements are creating a more Earth like climate, for efforts to terraform Mars.

Earth’s Sustainable Community On Mars

Mars Frontier series

Self replicating machines using APM manufacturing allow infrastructure to develop at astonishing rates on the red planet. New scientific, engineering and mining communities are establishing themselves rapidly as they descend from orbiting stations and stationary platforms above the planet. The current population on Mars has surpassed 40,000 inhabitants and is projected to double within the next five-years.

The form of governance adopted by the colonies on Mars is based on a nonpolitical and international form of cooperation.  Asteroid mining and APM manufacturing are the largest industries associated with the Mars colonies.

Mars Frontier series

 Martian colonists celebration party for “Pioneer Days.” Martian sunset seen in the background, behind a massive protective atmospheric shield.

Fossil Bed Enigma Reveals We May Never Have Been Alone

Found only days ago in the Antoniadi Crater region, is evidence of a fossil and what appears to be human like footprints. Although this discovery may revolutionize our view of the red planet — we must wait for the samples to arrive on Earth to confirm what could be one of the greatest discoveries of all time.

                                                                        Discovery at a Martian archeological dig site — “we have never been alone.”

Mars Frontier series

FrenchM_Coule_ a014

Mars Frontier series

Perchance, the most fascinating evidence of preexisting intelligence of life on Mars, was discovered near the Antoniadi Crater. Enclosed within a geographic site is a source, which is emitting peculiar magnetic fields. Upon further analysis revealed, distinct patterns of what appears as a mysterious complex digital codex. After extensive review and evaluation using a network of 2020 Enigma Genisus Computing systems interpreted it as audible, instrumental sounds accompanied by visual projections of humanoid syncopated movements.BoC video See Ya Later

Most perplexing is the referenced quantitative variables, suggest the site was or is a time capsule or possibly a time-portal. To see audio and visual projection click on the link below. https://www.youtube.com/watch?v=53bCaqz0zZA 

.

Music soundtrack for the Martian Prophecies — Powered by Boards of Canada (you can open another web browser if you like and have the following music play while viewing this essay)

Solar System & Planetary travel, music, dedicated to the “Shield of Achilles” – protector of the inner planets  http://www.youtube.com/watch?v=3l_IMOweP0E

Martian pioneers’ celebratory music – video chronicle International Space Station development and logistic support leading to permanent Mars colonization  http://www.youtube.com/watch?v=4jBzl–TN1Q  and or ⇒ http://www.youtube.com/watch?v=PYEZueAelKc     

Music for terraforming Mars too – video chronicles Mars atmospheric enrichment and the planets terraforming stages   http://www.youtube.com/watch?v=qthHlLyvplg

 

Martian moonlight illuminates sculpted cliffs, as "Vesta II" (logistics platform) enters view —piercing the night sky with solar light reflecting off its West-East orbital path.

Martian moonlight illuminates sculpted cliffs, as “Vesta II” (logistics platform) enters view —piercing the night sky with solar light reflecting off its West-East orbital path.

 

Facts Concerning Mars

One day on Mars = 24 hours 37 minutes and 22 seconds.

One year on Mars = 686.98 Earth days.

Average distance from Earth to Mars = 225 million kilometers.

The minimum distance from Earth to Mars = 54. million km.

The farthest distance from Earth to Mars = 401 million km.

Warmest temperature of Mars — 70 degrees F (20 degrees C) near the equator

Origin of the name Mars = Ancient Roman god of war and agricultural guardian

The calendar Month named after Mars = March

Links to Learn More About Mars

http://www.jpl.nasa.gov/missions/

http://www.nasa.gov/vision/space/travelinginspace/future_propulsion.html

http://physicsworld.com/cws/article/news/2008/nov/06/magnetic-shield-could-protect-spacecraft

http://www.wired.com/wiredscience/2010/01/gallery-mars/

http://www.nss.org/settlement/mars/zubrin-colonize.html

http://cbhd.org/content/whose-image-remaking-humanity-through-cybernetics-and-nanotechnology

http://www.slate.com/blogs/quora/2013/09/12/outer_space_can_we_make_mars_or_venus_habitable.html

http://en.wikipedia.org/wiki/List_of_private_spaceflight_companies

http://www.forbes.com/sites/brucedorminey/2013/05/29/can-mars-be-terraformed-nasas-maven-mission-could-provide-answers/

http://en.wikipedia.org/wiki/Lagrangian_point

http://www.applieddefense.com/wp-content/uploads/2012/12/2001-Carrico-Sun-Mars_Libration_Points_And_Mars_Mission_Simulations.pdf

http://www.thespacereview.com/article/2305/1

http://www.marssociety.org/

http://blogs.discovermagazine.com/crux/2014/09/08/where-build-off-world-colonies/#.VGp-1BYexjk

http://www.nss.org/spacemovement/greason.html

http://web.mit.edu/sydneydo/Public/Mars%20One%20Feasibility%20Analysis%20IAC14.pdf

A list of over 400 essays on Mars   http://www.123helpme.com/search.asp?text=mars 

Links to Third Industrial Revolution   http://www.thethirdindustrialrevolution.com

http://www.economist.com/node/21553017

http://en.wikipedia.org/wiki/The_Third_Industrial_Revolution:_How_Lateral_Power_is_Transforming_Energy,_the_Economy,_and_the_World

 

 

[contact-form][contact-field label='Name' type='name' class="GINGER_SOFATWARE_correct">/][contact-field label='Email' type='email' class="GINGER_SOFATWARE_correct">/][contact-field label='Website' class="GINGER_SOFATWARE_correct">/][contact-field label='Comment' type='textarea' class="GINGER_SOFATWARE_correct">/][/contact-form]

Big Picture One – Directory Of Multimedia eLearning Posts

Multimedia essays & eLearning programs by: David Anthony Johanson  © All Rights 

To quickly view sites of interest, just click on the white text to the right of the feature photo & above the program’s description. You also have the option to navigate to each essay by simply scrolling down past the end of this directory.

Essays are listed in chronological order from when they were first published.

You’ll find in each program essay, a spectrum of resources to help better understand & appreciate the subject matter. To enhance your experience, a variety of carefully considered dynamic content is used, including: photographs, videos, graphics, text & hyperlinks to other sites. Every effort is made to assure the information presented is factually correct by cross referencing content & giving proper credit for creative work used in the stories & essays.

You’re invited & encouraged to comment on the programs presented here, by doing so, you enrich the site by making it a more interactive experience. All constructive comments are welcome, even if you’re not in total agreement with the article’s point of view.

The author of these sites is a multimedia photographer, CTE instructor and a former Boeing scientific photographer.

For an alternative graphic format of these programs, please visit — www.ScienceTechTablet.wordpress.com 

————————————————————————–

Rattlesnake R hike BPP_e11

https://bigpictureone.wordpress.com/2014/12/31/new-brain-based-learning-strategies-explored-using-neuroimaging/  New Brain-Based Learning Strategies Explored To Help Achieve Your Full Potential. Finding and sharing new learning strategies, that are inspired from evidence based, neuroimaging and brain-mapping studies, is a dynamic process to help assist individuals in reaching their full learning potential. Brain-based learning is a spectrum of teaching strategies, which uses neuroscience research on how the brain functions in achieving ideal development and potential. Learning concepts used: Applied Learning, Adult Learning, Competency-based Learning, Critical Thinking, Integrative Learning. Key: Words or phrases italicized are used to focus on essential concepts or terms for enhanced learning and retention.

—————————————————————————

Antares_launch_graphic_ae2

https://bigpictureone.wordpress.com/tag/gone-in-30-seconds-elearning-program-on-rocket-launch-disaster/  Gone In 30 seconds… It’s estimated that an average of 8 percent of all commercial rocket launches end in failure. This eLearning program includes a compendium of 20th & 21st century rocket launches, including dramatic failures. A succinct introduction to space law is included for greater appreciation of the consequences and liabilities related to the growing number of commercial rocket launches. A detailed world map illustrates the major spaceports & launch centers using GPS coordinates and web address. 

An eLearning program for secondary/post secondary education and community learning content covered: — aerospace/astronautic engineering, avionics, economics & business, environmental footprint, financing, manufacturing, marketing, obsolescence management, technology& Space Law. Learning concepts used: Applied Learning, Adult Learning, Competency-based Learning, Critical Thinking, Integrative Learning. Key: Words or phrases italicized are used to focus on essential concepts or terms for enhanced learning and retention.

——————————————————————————

Boeing_Paine_Field_BPP_Ae3083

https://bigpictureone.wordpress.com/tag/david-a-johanson-historian/  Will The Next Jet Airliner You Fly Be Obsolete, And Ready for Early Retirement?  This multimedia essay examines the evolving financing strategies and technological developments affecting older generation commercial aircraft. An eLearning program for secondary/post secondary education and community learning. Assessment tool: A quiz and answer key is located at the end of the program. Learning content covered: aerospace/airliner— aerospace engineering, avionics, economics & business, environmental footprint, financing, manufacturing, marketing, obsolescence management, technology. Learning concepts used: Applied Learning, Adult Learning, Competency-based Learning, Critical Thinking, Integrative Learning. Key: Words or phrases italicized are used to focus on essential concepts or terms for enhanced learning and retention.

[ Disclaimer: David Johanson is a former Boeing scientific photographer and currently has no stock holdings or a financial interest in: Boeing, Airbus or any other companies referenced in this program. Research in this article has been cross referenced using at least three sources, however, all perspectives and opinions represent only the viewpoints of the author.]

——————————————————————————

Arctic_Tundra_Oil_Field_e1003

https://bigpictureone.wordpress.com/2014/04/22/the-environment-our-earths-lost-frontier/ The Environment, Our Earth’s Lost Frontier. A photo essay dedicated to the environment using photos from editorial and industrial photo assignments. From Alaska’s oil rich Arctic region to the tropical rain forest of Hawaii, environmental encounters and stories are visually shared. eLearning – suitable for secondary/postsecondary education, community & extended learning. Photo-illustration, graphics, text and links on Earthday and the environment included within this program. 

——————————————————————————

Mars_MP_BPP_ae214

https://bigpictureone.wordpress.com/2014/03/04/the-martian-prophecies-earths-conquest-of-the-red-planet/  The Martian Prophecies. In this futurist multimedia photo essay, a correspondent from 2054 presents a series of Astronautical engineering and Astrobiology developments enabling the remarkable colonization of Mars. ELearning – suitable for secondary/postsecondary education, community & extended learning. Extensive photo-illustration, graphics, text and links on Mars colonization included within this program.

——————————————————————————-

Steam_punk_Fairhaven_BPP_2013_w 1

https://bigpictureone.wordpress.com/2013/09/11/an-introductionary-guide-to-steampunk/ A Beginners Guide to Steampunk. — Photo essay introduction to Steampunk subculture. As a sub-genre of science fiction its practitioners feature Victorian era clothing along with accessories such as goggles, intricate antique jewelry & a wide spectrum of retro-futuristic attachments. Subjects include critical thinking, alternative lifestyle, 19TH Century Industrial History & Steampunk Etymology.

—————————————————————————

Rome_Archt_BBP_0344

https://bigpictureone.wordpress.com/2013/07/31/how-did-romes-vitruvius-become-the-worlds-first-impact-player-in-architecture/  Multimedia photo essay introduction to Roman architect & engineer Vitruvius, who writes the first book on architecture. Vitruvius’ influence is relevant for modern architecture, STEM, Pre-Engineer & CTE related content. For Secondary & post secondary learning. ELearning, Links relating subject matter, quizzes for learning. Extensive photography of Roman architecture featured from: Rome, Ostia Antica & Herculaneum.

————————————————————————————————-

Pearl_Harb_VC_BPP_e8v474bigpictureone.wordpress.com/tag/photos-of-pearl-harbor-visitor-center/  Low light architectural photography of the new Pearl Harbor Visitor Center on Oahu, Hawaii. Multicultural essay of modern Hawaiian & Pan Pacific Cultures. — multimedia photo essay, eLearning, photo tutorial on marketing & night photography, reference links

————————————————————————————————-

Sky_look_ BPP_ae208Is Space Law Really That Far Over Your Head? | bigpictureone   Space Law introduction, case studies, space port launch sites, space debris, asteroid mining includes history of the modern rocket program. — Multimedia essay, eLearning, STEM & CTE content, quizzes, interactive map, video links, reference links
———————————————————————————————– 
30756_1424678490440_7205732_n

Reflecting on the 33rd Anniversary of Mount Saint Helens Eruption | bigpictureone    Reflections on a close encounter with one of the worlds most active stravovolcanos.  Mt. Saint Helens eruption – photo essay, eLearning, reference links

————————————————————————————————-

What Chance Will America’s Youth Have In A Changing   STEM_EXPFair_ESD_BPP_E23Global Economy? | bigpictureone STEM Education & Magnet Schools – Origins of the program & its success in public education. STEM expo at Mountlake Terrace HS -Edmonds School District.–  Multimedia essay, eLearning, STEM & CTE content, reference links

————————————————————————————————-

Photo-illustration: David Johanson Vasquez © All RightsReflections From A Future Hawaii. Can A Tropical Paradise Become A Portal To Deep Space? | bigpictureone   Futuristic Hawaii in the year 2054 as it’s transformed into a space port & gateway to space. — Multimedia essay, eLearning, links

————————————————————————————————-

Waikiki_Santa_BPP_E22An unusual encounter with a Waikiki Santa Clause | bigpictureone      Photo essay of a Waikiki Santa Clause using an adaptation of Clement Clare Moore’s (1799 -1863) classic poem — Twas the night before Christmas. Multimedia photo essay.  Mele Kalikimaka! — multimedia, poetry, eLearning

————————————————————————————————-

Silhoute_man_ocean_BPP_E227https://bigpictureone.wordpress.com/2012/12/20/will-the-last-people-remaining-in-america-turn-the-lights-back-on/  Multimedia essay on solar flares, solar/geomagnetic storms & solar maximum of 2013-2014. Potential solar storm scenarios, which government scientist & federal agencies are warning about, including loss of world power grids. Resources & links to various publications & sites  included. — multimedia, eLearning on solar storm history & threats to current infrastructure, STEM related content, quizzes, reference links

———————————————————————————————

EPSON scanner imageA Glimpse Into Havana’s Legendary Watering Hole | bigpictureone Family photo taken in 1941 at Havana’s Sloppy Joe’s, inspired this photo essay of events shortly before & after the start of WWII. Family chronicled as they arrive in Panama for reunion with my grandfather, evacuated & survive being stalked by German wolf-pack U-boat submarine. — multimedia essay – eLearning

————————————————————————————————-

R22_Helicopt_DAJ_44The Latest Full Throttle Multimedia Video of Seattle From the R22 Beta Helicopter – Part 2 of 2 | bigpictureone  Helicopter safety & repair video, aerial photography of Seattle & Boeing field, using an R22. — STEM & CTE learning, multimeida, eLearning, quizzes video essay.

————————————————————————————————-

R22_helicopt_DAJ_42A Full Throttle Multimedia Video of Seattle      From the R22 Beta II Helicopter – Part 1 of 2. | bigpictureone  Helicopter safety & repair video, aerial photography for Port of Seattle, from Boeing Field, using an R22, eLearning video essay. STEM & CTE learning, aerospace engineering. — mutlimedia, eLearning, quizzes, resource links

————————————————————————————————

Man_micro_chip_BPP_et169https://bigpictureone.wordpress.com/2012/08/31/who-were-the-titans-of-telecommunication-and-information-technology/ Introduction to R&D research labs through a multimedia history of Bell Laboratory, its developments inventions. Second chapter explores Xerox PARC founding in Silicon Valley &  contributions it made to personal computing & telecommunications. — eLearning, quizzes, reference links

————————————————————————————————-

Star_Showr_Ref_Lk_BPP_e616https://bigpictureone.wordpress.com/2012/08/16/blinded-by-the-light-in-the-middle-of-night/  Photo essay on light pollution’s effects on night photography, astronomy, animal migrations & quality of life. Mount Rainier National Park & long exposure photographs of landscape & star constellations are featured in this essay. — multimedia, eLearning, STEM related content,  quizzes, resource links

————————————————————————————————-

Aurora_Bor_BPP_il_0011_1https://bigpictureone.wordpress.com/2012/07/20/theres-nothing-new-under-the-sun-or-is-there/  Multimedia essay introduction to solar storms (including historical perspective), CME’s, effects of geomagnetic disturbances & potential threats to global electrical power grids. The connection between solar storm activity & aurora Borealis — eLearning, STEM related content, quizzes, resource links

————————————————————————————————–

Orvi_Italy_BPP_E0412https://bigpictureone.wordpress.com/2012/02/21/exploring-etruscan-ruins-beneath-the-cliffs-of-medieval-orvieto-italy/ Multimedia essay on one of Europe’s best kept secrets — the medieval fortress citadel, Orvieto. Explores Etruscan ruins, grottos, medieval architecture, massive cathedrals & nearby Umbria countryside. Examines Etruscan art & its misunderstood cultural traditions under the shadow of the Roman Empire. — Critical thinking, World history & culture, travel, e-Learning, extensive photo gallery, quizzes, resource links

——————————————————————-

Paint_Hills, BPP__42https://bigpictureone.wordpress.com/2012/04/07/1382/ Multimedia essay includes video interview with a National Park Service’s ranger on the unique geology & wildlife qualities of John Day National Monument’s Painted Hills. Video features exclusive walking tour, which occurs only once per year. — night photography, resource links

———————————————————————————————

Boe_ing_787_First_Flt_BPP_Bg404Boeing’s 787 Dreamliner Historic First Flight From Paine Field, Everett, WA. | bigpictureone Historic first flight video of Boeing 787 Dreamliner at Everett facilities by BigPictureOne. Multimedia of Boeing Scientific photography experience related to aircraft structures & test engineering. — ELearning, STEM & CTE Ed, large photo gallery, quizzes, resource links

————————————————————————————————-

SeaSPNed_BP_90_MRhttps://bigpictureone.wordpress.com/2012/04/22/the-world-event-which-launched-seattle-into-a-post-modern-orbit-50-years-ago-today/  Multimedia essay explores an early postmodern World’s fair — known as Seattle’s Century 21 Worlds Fair, opened in 1962, during the Cuban Missile Crisis.  e-Learning, STEM related content, quizzes, extensive photos

———————————————————————————————–

twinT_WTC_NYC BPP_arl_44https://bigpictureone.wordpress.com/2011/09/12/the-day-after-911-ten-years-after/ Multimedia narrative of a 1998 visit to the NYC World Trade Center Towers & the aftermath of the 9/11 terrorist attacks. Seattle architect Minoru Yamasaki’s designs of the NYC Trade Centers are compared with his Seattle Science Center design for the Century 21 Worlds Fair —eLearning, critical thinking, extensive photo gallery, quizzes, resource links

—————————————————————————————–

Snoqu_almie_Falls_BPP_Ae_6174Luminous Beauty of Low-light Photography | bigpictureone Photo essay tutorial on low-light photography. Strategies & techniques of using low noise sensors in digital cameras. Terms such as magic hour & HDR photography are explained. — eLearning, CTE related content, photo gallery

————————————————————————————–

Kingdome Demo_BPP_ 2KIngdome demolition March 26 2000 | bigpictureone Video multimedia essay of one of the World’s largest demolitions of Seattle Kingdome. E-learning, video tutorial (featured slow-motion & high-speed video effects), essay of event & aftermath from dust storm. Reference links included.

————————————————————————————–

Tech_abst_BPP__3ea1Will The Current Solar Storms Hitting Earth, Lead To Lights-out for us by 2013-2014? | bigpictureone A multimedia essay introduction to solar storms, history of geomagnetic effects on industrial & postmodern societies. Civil preparedness, Photos & videos of Aurora Borealis. STEM & solar physics undergraduate content, extensive photos, resource links

———————————————————————————————

[contact-form][contact-field label='Name' type='name' class="GINGER_SOFATWARE_correct">/][contact-field label='Email' type='email' class="GINGER_SOFATWARE_correct">/][contact-field label='Website' class="GINGER_SOFATWARE_correct">/][contact-field label='Comment' type='textarea' class="GINGER_SOFATWARE_correct">/][/contact-form]

What Chance Will America’s Youth Have In A Changing Global Economy?

 

 The first STEM EXPO Fair held at Edmonds School District's new STEM Magnet School at MountLake Terrace HS in Washington State. The student is caring a rocket, which was used in a group presentation at the fair.
The first STEM EXPO Fair held at Edmonds School District’s new STEM Magnet School at MountLake Terrace HS in Washington State. A rocket club student holds a rocket, which was used earlier in a group presentation at the fair.
.

.

Multimedia eLearning program by: David Anthony Johanson © All Rights

The author is a multimedia specialist, CTE instructor and a former Boeing scientific photographer. For an alternative graphic view of this program, please visit: https://sciencetechtablet.wordpress.com/tag/e-learning/

A big question asked by concerned people and industry leaders across the Nation is waiting for an answer… How will current and future generations stay competitive in an increasingly, complex, global economy? A high-performance education program involving a blend of Science, Technology, Engineering and Mathematics (STEM) — is promising solutions as its building momentum within post-secondary and kindergarten-through-grade 12 (K-12) education

STEM Robotics team project is demonstrated for an enthusiastic audience of all ages.
The STEM Robotics team project is demonstrated to an enthusiastic audience of all ages.

The dynamic learning created from STEM’s project based curriculum is contagious for a growing number of students. And the program’s appeal is spreading to parents, public schools and corporate sponsors who are looking for ways to get involved in supporting technology learning through secondary education. Even the U.S. Congress solidly supports the critical initiatives driving STEM Education, which is primarily funded through the National Science Foundation (NSF.)

STEM Robotics team in action with their project
Enthusiasm and excitement were experienced by those viewing students’ technology project presentations.

A Basic Overview Of A STEM Magnet Program

.

By the 21st century, digital technology had transformed global manufacturing and commerce by accelerating STEM related industries. The skill-sets, training and knowledge of entry-level applicants was noticeably falling behind. Standards for learning, used in our public educational system, were now becoming outdated. Nationally, educators needed a new, comprehensive learning approach to inspire, explore and motivate students’ achievement in the global dynamics of STEM.

Today, the Nation’s public schools place greater emphasis on introducing STEM related content to both teachers and students, starting as early as grade school. This program strategy allows all students of varied backgrounds, ethnicities and socioeconomic levels, gain access to learning projects associated with science and technology. By presenting young students with thoughtful STEM lesson plans, they are more likely to engage in the discovery process of even the most technical subject matters. Entering middle school, students are learning accelerated levels of science and technology content, which helps them decide if they wish to enroll in a high school, offering a focused curriculum. The STEM Magnet Program pulls in a diversified population of students, engaged and motivated by their earliest learning experiences.STEM_Fair_ESD_BPP_aq_68

 Evolution And Development Of STEM Education

.

Richard Blais, Chairman of the technology department for the Shenendehowa Central School District in Upstate New York, developed a curriculum in 1986, to support students’ interest in studying engineering. To enable enthusiasm and confidence in students, core courses included; pre-engineering and digital electronics, infused with energetic and interactive learning environments. The curriculum’s proven a success, attracted philanthropist, Richard Liebich, who partnered with Blais to set up, Project Lead the Way (PLTW.) 

Greg Schwab - Principal, Mountlake Terrace High School, greets students at the STEM EXPO Fair
Greg Schwab – Principal, Mountlake Terrace High School, greets students at the STEM EXPO Fair
Dr. Nick Brossoit Superintendent, Edmonds School District
Dr. Nick Brossoit Superintendent, Edmonds School District

Within 10 years of PLTW’s founding, a dozen high schools in New York State adopted the program. Within the next few years high schools in 30 states were using PLTW’s “Pathway to Engineering Program.” Soon after, PLTW was a major national program, which used innovative activities of project and problem-based assignments. Further adding to PLTW’s momentum and success was the enthusiastic support corporations showed by endorsing and contributing financial resources towards the program.  

Mark Madison  Director, Career & Technical Education
Mark Madison
Director, Career & Technical Education for Edmonds SD

STEM Education incorporated many successful PLTW learning strategies and programs. PLTW is still active in high schools today and plays an active role in STEM Education.

STEM EXPO Keynote Speaker - Dr. Elaine Scott Director of Science & Technology Program UW Bothell
STEM EXPO Keynote Speaker – Dr. Elaine Scott, Director of Science & Technology Program, UW Bothell 

Mark Sanders’, 2009 STEMmania article in The Technology Teacher, cites the STEM acronym first being used in the 1990’s. The National Science Foundation (NSF) started using “SMET” as a reference for “science, mathematics, engineering and technology.” A department, program officer complained “SMET” sounded similar to “smut,” so “STEM” became the suitable replacement. It would take more than a decade for the public to recognize STEM’s referenced meaning.

The support  and enthusiasm for STEM Education is displayed by an impressive turnout for the District's first STEM EXPO Fair.
The support and enthusiasm for STEM Education is displayed by an impressive turnout for the District’s first STEM EXPO Fair.

STEM_Fair_ESD_BPP_77_1  STEM_Fair_ESD_BPP_74STEM_Multi_Tshirt_-E101

The Challenge Of Integrative Education: Transcending Barriers And Perceived Domains Found Within Science, Technology, Engineering and Mathematic Education

.

Perhaps the greatest test for a STEM Magnet Program will involve achieving the goal, of course/subject integration. As a career, technical and education (CTE) instructor, I’ve heard this complaint more than any other from students — “why do I have to learn this subject, it doesn’t relate to other things I’m learning or anything I’ll ever need to know!?” In truth, all subjects and courses taught in school share dynamic connections, we as educators need to do more in helping students see their associations.    STEM_Fair_ESD_BPP_ae_24Core sciences and engineering education programs have traditionally maintained strict disciplinary lines, known as silos. This shortsighted disconnect is generally not found in highly competitive industries, where the imperative is to find solutions which will “payoff” in the shortest amount of time. Industry’s necessity to cut through the process, for realizing greater profits is an important lesson plan for all STEM Programs. The realized profit for a student is — being taught how to quickly adapt new, comprehensive and sometimes-unconventional learning strategies to gain a competitive advantage.  STEM_Fair_ESD_BPP_ae_18

STEM Expo Robotics team takes a break from their demonstration for a group photo. Teamwork builds confidence and trust in the students themselves as well as other team members.
The STEM Expo Robotics team takes a break from their demonstration for a group photo. Teamwork builds confidence and trust in the students themselves, as well as other team members.

Benefits/Advantages For Both Students And The Schools They Attend

.

Developing a STEM magnet program helps a school district align its resources towards assisting students preparing for college and universities, which specialize in related technical studies. An additional advantage the program offers a student pursuing a post secondary education is — an institution will most likely accept the applicant’s enrollment request based on the knowledge and technical skills achieved through a STEM Magnet Program.

STEM_Fair_ESD_BPP_87   STEM_Fair_ESD_BPP_ac_23  U.S. industries have increasingly cited the lack of qualified technical applicants they need as a reason not to hire more employees. The shortage of people with necessary STEM skills has motivated corporations to contribute their resources of funding, mentoring and sponsorship towards public education’s technology learning programs.

STEM_Fair_ESD_BPP_ah_6

Community exhibitors at the STEM EXPO Fair include corporate sponsors of STEM education.
Community exhibitors at the STEM EXPO Fair include corporate sponsors of STEM education.

STEM_Fair_ESD_BPP_ac_35

Aerospace giant Boeing is a big sponsor of the STEM Magnet Program.
Aerospace giant Boeing is a big sponsor of the STEM Magnet Program.

STEM_Fair_ESD_BPP_104

STEM_Fair_ESD_BPP_1

Parents and community groups have eagerly supported STEM programs. Student’s parents are critical stakeholders who quickly realized the impact the program was having  — seeing impressive scholastic and attitude improvements with their children.

STEM_Fair_ESD_BPP_ae_17

STEM_Fair_ESD_BPP_ac_1

STEM Education Uses Progressive Learning Strategies To Develop Critical Learning And Self-Discipline Within a Student 

.

STEM_Fair_ESD_BPP_ad_7

As STEM Education attempts to accelerate student development by modifying the standard teacher-centered classroom with more independent learning. The curriculum encourages project-based learning, problem solving and discovery, which empower the students to engage their cognitive skills to find solutions. This form of learning develops greater self-confidence in students and it opens channels among the students themselves to interact thru peer-to-peer learning. These spontaneous collaborative activities are self-organized learning events and they naturally promote leadership within the group. It has been well documented, knowledge transferred from experience in peer-to-peer activities are highly successful forms of learning.

Students enrolled in STEM Programs are encouraged to engage and connect with others by refining their presentation skills.
Students enrolled in STEM Programs are encouraged to engage and connect with others by refining their presentation skills.
STEM_Fair_ESD_BPP_ab_15

STEM_Fair_ESD_BPP_am_39  STEM_Fair_ESD_BPP_ac_20

Tangible Returns In Personal Development Through Teamwork And Leadership

.

Over the past five years I’ve had the opportunity to teach in a variety of classroom environments using a CTE curriculum. It’s remarkable seeing how engaged students are with learning their STEM subject matter. These same students are much more likely to openly contribute and share their ideas in a classroom discussion using the critical thinking skills they’ve learned to develop.

Most often, the STEM classes are more like being in a college environment, requiring a minimum amount of classroom management, as the students are self-motivated to complete their assignments and move on to the next project. Generally, the level of leadership development and volunteerism is noticeably higher in STEM classes due to the program’s emphasis on teamwork, self-confidence and academic achievement. These personal development qualities are valuable assets for students when applying for college admission and later — when entering the career of their choice.

Craig DeVine - pre-engineering instructor, talks with his students near a 3-D printer
Craig DeVine – pre-engineering instructor, talks with his students near a 3-D printer

STEM_Fair_ESD_BPP_a3

STEM_Fair_ESD_BPP_ad_15

.

Improving Forecast For Employment Opportunities Using STEM Education

.

As STEM Magnet Schools continue to place their graduates into secondary education, followed by the students’ successful careers in STEM related industries — STEM Education will help transform the American education landscape. If STEM Education can sustain its momentum, the future horizon looks bright for our youth to achieve economic opportunities on a global leveled playing field.

STEM_Fair_ESD_BPP_91STEM_Fair_ESD_BPP_1STEM_Fair_ESD_BPP_ae_12_1

Entrance to Mountlake Terrace High School -Edmonds School District's first STEM Magnet School
Entrance to Mountlake Terrace High School -Edmonds School District’s first STEM Magnet School

STEM_Fair_ESD_BPP_ad_18

STEM Education Terms & Definitions

CTE = Career Technical Education NSF = National Science Foundation PD&I = pedagogy referring to – purposeful design and inquiry PLTW = Project Lead The Way STEM = Science, Technology, Engineering & Mathematics  STEM Magnet School = A school with a concentration of STEM classes, which attracts students throughout a school district interested in enrolling in a STEM Program

STEM_Fair_ESD_BPP_ae_5

STEM Education Links

http://www.stemedcoalition.org/ Home The Future of Education / The history of STEM education in America. Handy infographic! What is STEM Education? PLTW | OUR HISTORY PLTW | STEM Education Curriculum for Middle and High Schools http://esdstem.pbworks.com/f/TTT%2BSTEM%2BArticle_1.pdf Home PBS Teachers | STEM Education Resource Center nsf.gov – National Science Foundation – US National Science Foundation (NSF) Siemens STEM Academy – STEM Education Has Arrived… Start Small, But Dream Big http://www.stemeducation.com/ STEM Resources | Early STEM Program Still Going Strong – STEM Education (usnews.com) What STEM Is–and Why We Care – STEM Education (usnews.com) 

https://education.uky.edu/STEM/sites/education.uky.edu.STEM/files/SEM%20604_syllabus_%20History%20of%20STEM%20Ed.pdf Historical Perspectives on STEM Education in Arkansas | Arkansas STEM Coalition http://www.fas.org/sgp/crs/misc/R42642.pdf STEM ES Home – STEM ES FAQs NSTA :: News Story 

Reflections From A Future Hawaii. Can A Tropical Paradise Become A Portal To Deep Space?

Photo-illustration: David Johanson Vasquez © All Rights

Honolulu, Hawaii 2054: Launch gateway to L4 & L5 space stations, L2 Lunar Hub and the Mars Frontier. Illuminated aircraft and monorail tubes bring early commuters into the City as twilight transitions to dawn.

Multimedia essay by: David Johanson Vasquez © All Rights

Waikiki, on Hawaii’s Island of Oahu is a Cross Roads of the World. The allure of this tropical city attracts millions of vacationing pilgrims from across the globe. Steady infusion of foreign and domestic investment creates a dynamic and often futuristic looking metropolis.

Digital display featured at the Galleria.

Digital display featured at the Galleria.

On my last visit to Waikiki in November, I came across an ultramodern, duty-free, fashion and clothing store located on the main boulevard. Entering this multiplex shopping site felt like being on the sci-fi movie sets for Minority Report or Blade Runner. My son-in-law commented as he left the “Galleria” — “it was a sensory overload experience,” so he was headed back to the hotel to sleep it off. Hawa_Futr_BPP_121116_a38

A hall portal view to Waikiki's Galleria.

A hall portal view to Waikiki’s Galleria.

The experience of entering the Galleria is exciting and dynamic for those who are ready for such an encounter.

Honolulu’s Dynamic Style of Architecture

The surrounding city of Honolulu has a vibrant range of architectural styles and its own unique Hawaiian form. Within Waikiki, new architecture blends a modern and Japanese style.

An example of modern  Hawaiian Style Architecture.

An example of modern Hawaiian Style Architecture.

From our hotel room we could see a dynamic Honolulu panorama of the city, which suggested the idea of a — reflection of the future. Waikiki_Pano_BPP_ewp222 Massive walls of electronic  projection frame the entry environment in Waikiki's Galleria.

The Sky Is No Longer The Limit For Digital Displays

Massive walls of electronic projection frame the entry environment in Waikiki’s Galleria.  Marketing and advertising have embraced electronics LED’s to capture our attention and stimulate the senses. We can expect the future will sustain sensory overload for marketing of products, services and ideas on a global scale. Hawa11_121118_BPP_e224

The experience of entering the Galleria is exciting and dynamic for those who are ready for such an encounter. Multimedia environments are becoming more common in the 21st Century. As natural environments are increasingly altered or replaced by new ones, projections of “paradise lost” will attempt to fill the expanding void. Pearl_Harb_VC_BPP__2a1426

A Scenario For Things To Come

With automation and remote-control technology accelerating into all professions and industry,  getting safely from point-A-to-point-B becomes seamless with advanced autopilot avionics used in transportation operations — World travel now becomes even more assessable and affordable. A futuristic Boeing pilotless passenger jet with personal projection systems ( PPS). A futuristic Boeing pilotless passenger jet with personal projection systems ( PPS) as it nears the Island of Oahu.

South Point (Ka Lae) – Naalehu, Big Island, Hawaii +18° 54′ 39.96″, -155° 40′ 52.00″ “The Pan Pacific Launch Site” Gateway To Lunar And Deep Space Exploration

As international space exploration matures, greater consortiums and partnerships develop between countries and corporations for creating space operations staging points near Earth’s orbit. The Lagrangian Points: of L2, L4 and L5 are  locations relatively close to Earth, which provide stable orbits for building hubs to assist in lunar, deep-space and asteroid exploratory missions.

The Big Island of Hawaii's South Point ( Ka Lae) is in the neighborhood of 1,400 miles from the Equator, which requires less fuel for launching rockets into orbit. On the right, a rocket has lifted off from the Pan Pacific Launch Site, on its journey to an international L2 Lunar Hub.

The Big Island of Hawaii’s South Point ( Ka Lae) is in the neighborhood of 1,400 miles from the Equator, which requires less fuel for launching rockets into orbit. On the right, SpaceX rocket has lifted off from the Pan Pacific Launch Site, on its journey to an international L2 Lunar Hub. – Photo illustration: David Johanson Vasquez ©

Space view looking back towards Hawaii's "Pan Pacific Launch Site." - Photo David Johanson Vasquez ©

Space view looking back towards Hawaii’s “Pan Pacific Launch Site.” – Photo David Johanson Vasquez ©

Photo courtesy of NASA

Photo courtesy of NASA

Locations of previous NASA Apollo Manned landing sites. Photo illustration courtesy of NASA.

Locations of previous NASA Apollo Manned landing sites. Photo illustration courtesy of NASA. Some in Congress are considering declaring these sites as “National Parks,” to protect them from future treasure hunters.

Section view of International L2 Lunar Hub in stable orbit .

Section view of International L2 Lunar Hub in stable platform orbit. Prime contracting consortium: Boeing, Mitsubishi HI, AviChina, Hindustan Aeronautics and ST Engineering.

990528b

"Asteroid 1" - artist concept of asteroid mining mission to an Earth approaching asteroid.NASA sponsored a study on space manufacturing held at Ames Research Center (ARC) June1977, commissioned this painting by - Denise Watt.

“Asteroid 1” – artist concept of asteroid mining mission to an Earth approaching asteroid.
NASA sponsored a study on space manufacturing held at Ames Research Center (ARC) June 1977, commissioned painting by – Denise Watt.

Post cards from the Martian Frontier,— Photo illustration: David Johanson Vasquez ©

Digital post cards from the Martian Frontier.
— Photo illustration: David Johanson Vasquez ©

Digital post cards from Mars - mining operations on the "Red Planet."  — Photo illustration: David Johanson Vasquez © All Rights.

Digital post cards from the Martian Frontier — mining operations during sunset on the”Red Planet.” — Photo illustration: David Johanson Vasquez © All Rights. 

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

.

Links to the University of Hawaii Manoa Engineering Program’s Satellite Project. UH is the only university to have built its own satellite, which will soon be launched. Click on the link below. ↓

University of Hawaii aims to become the first university with satellite launch capability | Malamalama, The Magazine of the University of Hawai’i System

http://www.space.com/20849-hawaii-small-satellite-launch.html

University of Hawaii innovation article about UH College of Engineering Satellite Program –  by: Jolyn Okimoto Rosa. Click on the link below. ↓

http://www.universityofhawaiiinnovation.com/features/readying-for-liftoff/

http://www.youtube.com/watch?v=dHdNSS85c5M    

Click on the above link to see a glimpse of the future. Make sure to fill your entire screen with the video.

[contact-form][contact-field label='Name' type='name' class="GINGER_SOFATWARE_correct">/][contact-field label='Email' type='email' class="GINGER_SOFATWARE_correct">/][contact-field label='Website' class="GINGER_SOFATWARE_correct">/][contact-field label='Comment' type='textarea' class="GINGER_SOFATWARE_correct">/][/contact-form]

 

Who Were the Titans of Telecommunication and Information Technology?

.

Multimedia Essay By: David Johanson Vasquez © All Rights – Second Addition – Series: 1 & 2 

. — Inventions are rarely the result of one individual’s work, but are created from collective efforts over time, from several individual’s observations, theories and experiments. Benjamin Franklin’s role in demystifying electricity, Michael Faraday’s discovery of “induced” current, Nikola Tesla and Guglielmo Marconi’s wireless radio communication… are just a few of the technology pioneers responsible for developing modern telecommunications. I regret not having the resources  for this program’s inclusion of all men and women, whose discoveries made telecommunication  and information technology possible.

Definition of technology — “the systematic application of scientific or other organized knowledge to practical tasks.”  (J.K Galbraith)  “the application of scientific and other organized knowledge to practical tasks by… ordered systems that involve people and machines.” (John Naughton) For an alternative graphic format on this essay:  www.ScienceTechTablet.wordpress.com                                                                                                                                                                                                                 Telecommunications took its first infant steps as the industrial revolution was rapidly compressing concepts of time and space. The first half of the 19THThe century witnessed modern society’s reliance on new innovations — steam locomotive trains for mass transit and electronic communication through telegraph technology. Steamships shrunk the world by delivering capital goods, raw resources and people to remote locations within fractions of the time it took before. With the industrial revolution nearing its peak at the close of the century, a new communication, innovation was developed, which helped transform the modern age into a postmodern era.

Inventor, Alexander Graham Bell’s Washington D.C. company, which developed the telephone, eventually evolved into a prime research laboratory. Bell’s vision for a R & D lab, created a foundation for the digital technologies of today. In the following century, another key, R & D technology titan— Xerox PARC enters the stage, which helps to set in motion personal computing and expands the information technology revolution.

The steamship S.S. Empress of India near Vancouver B.C.
From the private collection of: David A. Johanson ©

.  Scottish born Alexander Graham Bell From the collection of: Library of Congress

The French Technology Connection

A French, visionary government in 1880, recognized the importance of  Alexander Bell’s invention, and awarded him the Volta Prize. A sum of 50,000 francs or roughly, $ 250,000 in today’s currency came with the honor. The funds were reinvested into Bell’s laboratory for use in analysis, recording and transmission of sound. Growing proceeds from the lab were used for additional research and in education to enable knowledge on deafness.  

Can You Hear Me Now                                         

 The telegraph and telephone were the first forms of electrical, point-to-point telecommunications and qualify as early versions of social-media platforms. Over time, phone service, convenience and quality have steadily improved. In my youth during the early 1960s, I spent summers visiting relatives with farms in Wisconsin who had phones connected on “party lines” (several phone subscribers on one circuit).  When picking up a phone connected with a party line, your neighbor might be having a conversation in progress. If  a conversation was taking place you could politely interrupt and request to use the phone for urgent business. Today,  phone service has become so advanced that it is taken for granted as a form of personal utility.   In 1925, Bell Telephone Laboratories were created from a merger with the engineering department of American Telephone & Telegraph (AT&T) and Western Electric Research Laboratories.  Ownership of the lab was shared evenly between the two companies; in return, Bell Laboratories provided design and technical support for Western Electric’s telephone infrastructure used by the Bell System. Bell Labs completed the symbiotic relationship for the phone companies by writing and maintaining a full-spectrum of technical manuals known as Bell System Practices (BSP).     

An Invisible Bridge From Point A To Point B

Bell Laboratories instantly began developing and demonstrating for the first time, telecommunication technology, which we now depend on for economic growth and to hold our social fabric together. Bell accomplished the first transmitting of a long-distance, 128-line television images from New York to Washington, D.C. in 1927. This remarkable event ushered in television broadcast, creating a new form of mass-multimedia. Now people could gather together in the comfort of their homes and witness… live news reports, hours of entertainment and product advertisements, which helped to stimulate consumer spending in a growing economy.            Radio astronomy’s powerful space exploratory telescope, was developed through research conducted by Karl Jansky in 1931. During this decade, Bell lab’s George Paget Thomson was awarded the Nobel Prize in physics for his discovery of electron diffraction, which was a key factor for solid-state.

The Forecasting Power of Numerical Data

An important component of renewable energy is the photovoltaic cell, which was developed in the lab during the 1940s by Russell Ohl. A majority of the United States’  statistician superstars, such as W. Edwards Deming, Harold F. Dodge, George Edwards, Paul Olmstead and Mary N.Torrey all came from Bell Labs Quality Assurance Department. W. Edwards Deming’s genius would later go on to help revitalize Japan’s industry and be used in Ford Motors’ successful, quality control initiatives in the 1980s.

W. Edwards Deming

The U.S. government used Bell Labs for a series of consulting projects relating to highly technical initiatives and for the Apollo program. Several Nobel Prizes have been awarded to researchers at the laboratory, adding to its fame and growing prestige. In the 1940s many of the Bell Labs were moved from New York City to nearby areas of New Jersey. …………………………………. Replica of the first transistor.

Smaller Is Better In The World Of Electronics

Inventors of the transistor, l. to r. Dr. William Shockley, Dr. John Bardeen, Dr. Walter Brattain, ca. 1956 Courtesy Bell Laboratories Perhaps Bell Laboratories most marvelous invention was the transistor invented on December 16, 1947Transistors are at the heart of just about all electrical devices you’ll use today. These crucial artifacts transformed the electronics industry, by miniaturizing multiple electronic components used in an ever-expanding array of products and technical applications. Transistor efficiencies also greatly reduced the amount of heat in electronic devices, while improving overall reliability and efficiency compared to fragile vacuum tube components. Once more, the lab’s select team of scientist was rewarded with the Nobel Prize in Physics, for essential components of telecommunications. 

The mobile-phone was also created in 1947, with the lab’s commercial launch of Mobile Telephone Service (MTS) for use in automobiles. Some 20 years later, cell phone technology was developed at Bell Labs and went on to become the ubiquitous form of communication it is today. In 1954 the lab began to harness the sun’s potential, by creating the world’s first modern solar cell. The laser (Light Amplification by Stimulated Emission of Radiation) was dated in a Bell Lab, 1958 publication.  The laser’s growing spectrum of applications includes — communications, medical and consumer electronics.

A Perpetual Revolution In The Sky Unites The World

In 1962, Bell Labs pioneered satellite communications with the launch of Telstar 1, the first orbiting communication satellite. Telstar enabled virtually instant telephone calls to be bounced from coast to coast and throughout the world. This development unified global communications and provided instant 24-hour news coverage.      

 Bell Labs introduced the replacement of rotary dialing with touch-tone in 1963, this improvement vastly expanded telephone services with— 911 emergency response, voice mail and call service capabilities.

Image used in Byte Magazine for an article on VM2 assembly language. Photo-illustration by: David A. Johanson © All Rights

 

A New Distinct Language For Harnessing Machines

It’s been greatly underreported that Unix operating system, C and C++ programing languages,  essential for use in Information Technology (IT), were all created in Bell Labs. These crucial computer developments were established between 1969 and 1972, while C++ came later in the early 1980s. C programing was a breakthrough as a streamlined and flexible form of computer coding, making it one of the most widely used in today’s programing languages. Unix enabled comprehensive networking of diverse computing systems, providing for the internet’s dynamic foundation. Increasingly, Bell Laboratories inventions for the next two decades expanded micro-computing frontiers, which helped to establish personal computing.    

                                                                        In 1980, Bell Labs tested the first single-chip 32-bit microprocessor, enabling personal computers to handle complex multimedia applications.

 

A major corporate restructure of AT&T, the parent company of Bell Laboratories, was ordered  by the U.S.  Federal government in 1985, to split-up its subsidiaries as part of a  divestiture agreementThis event proved to be an example of overregulation, which severed important links for funding technology R&D projects. Although AT&T previously had an economic advantage with a monopoly in the telephone industry, it allowed for necessary funding of Bell R&D labs.  Indirectly, U.S. taxpayers made one of the best investments by subsidizing the foundation for our current telecommunication and information technology infrastructure. AT&T Bell Laboratories became AT&T Labs official new name in 1996, when it  became part of Lucent Technologies. Since 1996, AT&T Labs has been awarded over 2000 patens and has introduced hundreds of new products. In 2007, Lucent Bell and Alcatel Research merged into one organization under the name Bell Laboratories. Currently, the Labs’ purpose is directed away from science discovery and focussed on enhancing existing  technology, which will yield higher financial returns.

Pause & Reflect: Questions for continuous learning part 1.

1.) What were the first forms of electrical, point-to-point telecommunications? 2.) What revolution was taking place when early forms of telecommunications were invented and name at least two technology innovations? 3.) Define the word technology? 5.) Who founded Bell Research and Development Labs? 7.) Name at least two developments which Bell Labs were awarded Nobel Prizes in? 6.) Pick one Bell Lab invention, which you believe was most important for helping develop modern telecommunications or personal computing.

Any Sufficiently Advanced Technology Will Appear As Magic.

                                                                          — Arthur C. Clarke

 

Advance Technology Takes Root In The West

In the first half of the 20TH Century, Bell Labs’ dazzling R&D creations aligned seamlessly to establish a solid foundation in telecommunications. Most of the Labs’ bold research had been conducted in the industrialized, Eastern portion of the United States. By the 1950s, new evolving industries on the West Coast were benefiting from Bell’s technological developments. Palo Alto’s, Stanford University research facilities, south of San Francisco, attracted corporate transplants— most notably  IBM, General Electric and Eastman Kodak. In 1970, XEROX Corporation of Rochester, New York established a research center known as—Xerox PARC (Palo Alto Research Center Incorporated). PARC’s impact in R&D would soon be felt, acting as a stimulating catalyst for personal computing and information technology development.  

 Creative Sanctuary For Nurturing Daring Ideas

Jack GoldmanChief Scientist at Xerox enlisted physicist Dr. George Pake, a specialist in nuclear magnetic resonance to help establish a new Xerox research center. Selecting the Palo Alto location gave the scientist greater freedom than was possible near its Rochester headquarters. The location also provided huge resource opportunities to select talent pools of engineers and scientist from the numerous research centers located in the Bay Area. Once the West-Coast lab had a foothold, it became a sanctuary for the company’s creative misfits— passionate science engineers who were determined to create boldly. One of the few downsides for the new facility’s location was—less opportunities for lobbying and promoting critical breakthrough developments to top management located a continent away. XEROX PARC had an inspiring creative influence, along with universal appeal, which attracted international visitors. A collaborative, open atmosphere helps to define the creative legacy of PARC. The cross-pollination of ideas and published research between the R&D facility and Stanford’s computer science community, pushed digital innovation towards new thresholds.

A Premier Of Personal Computing Tools Is Unveiled

XEROX PARC, discovered a target rich environment of ideas from  Douglas Engelbart, who worked at Stanford Research Institute (SRI) in Menlo Park. Engelbart gave the Mother of all personal computing presentations in December of 1968, — astonishing the computer science audience with a remarkable debut of: the computer mouse, hypertext, email, video conferencing and much more. Bitmap graphic, graphical user interface (GUI), which provides window features and icons— are just a few of the revolutionary concepts developed by PARC for personal computing. The list of  PC  innovations and developments continues with laser printersWYSIWYG text editorInterPress (prototype of Postscript) and Ethernet as a local-area computer network—inspiring PARC Universal Packet architecture, which resembles today’s internet. Optical disc technologies and LCD, were developed by PARC material scientist adding yet more to its diverse technology portfolio.

 The Shape Of Things To Come

Xerox PARC’s R&D, efficiently blended these vital new technologies and leveraged it all into a personal computer, workstation, called  “Alto.” The futuristic Alto, was light-years ahead of its 1973 debut—bundled with a dynamic utility including: a mouse, graphical user interface and the connectivity of Ethernet. Interest in this revolutionary PC wonder kept expanding as countless demonstrations were given to the legions of intrigued individuals. The increasing demand for witnessing the power of PC computing was telegraphing the need for a new consumer market. For the first time, a “desktop sized computer”could match the capabilities of a full-service print shop. Advance technology always comes with a hefty price tag, and the Alto was no exception, making it beyond reach of most consumers. Despite a high price-point — excitement, fame and glory of Alto grew — as did admiration for the bold new world of Apple Computers and of its superstar founder — Steve Jobs.

Xerox Alto -1973 Was this the apple of Steve Job’s eye? It certainly was the first personal computer, which included most of the graphic interface features we recognize today.

Torch Of The Titans Lights New Horizons

By 1979, Apple was beginning to advance its own flavor of user-friendly interfaces with the development of the Lisa and Macintosh personal computers. Both products featured screens with multiple fonts, using bitmap screens for blending graphics and text. From early on, there were Apple graphic engineers associated with Xerox PARC — either through former employment or in connection with Stanford University. Apple engineers aware of advances made in graphic interfaces with PARC’s ALTO, prompted Steve Jobs to have a parlay with PARC. In late 1979, Steve Jobs with his Apple engineering entourage arrived to view an AlTO demonstration at Xerox facilities. The meeting’s outcome proved Jobs’ was a master of showmanship and marketing JudeJitsu by not disclosing a previously negotiated, sizable investment from Xerox’s venture capital group.

Gravitational forces began shifting in favor of Steve Jobs and Apple Computer to capitalize on the market potential for personal computing. PARC computer engineers and scientist clearly understood the economic potential of an information business they help to build… but top Xerox executives certainly did not.  Xerox had a history of dominating the lucrative copy machine market — this was the business model Xerox corporate decision makers were comfortable with and they would not risk venturing very far from.

Most of PARC’s personal computing developments experienced the same frustrating fate of being cherry picked by others —  allowing for lucrative opportunities to go for bargain rates to new companies like Apple Computers. Apple’s alchemy of — perfect timing, creative talent and visionary insight quickly aligned towards harnessing information technology products for an emerging market convergence. The creative inspiration and marketing savvy, which Steve Jobs’ applied towards personal computing—created  seismic ripple effects, which we’re still experiencing today.

.

Nothing Ventured, Nothing Gained  

Recently, there’s been a handful of media and tech industry critics, siting undeserved shortcomings of Bell Labs and Xerox PARC. Too often, corporate R&D labs are faulted for not fully marketing their technology developments or capitalizing on scientific inventions. Rarely mentioned in these over-simplistic reviews, is an understanding an R&D’s purpose or mission of innovation, which is directed by the parent company’s strategic goals. Failing to understand the reality of this relationship, detracts from the technological importance and diminishes the accomplishments of these remarkable engineers and scientists. Lost in the critics hindsight is an under-reporting of the titanic obstacles facing the marketing, manufacturing and distribution of innovative products.

.

Thrilling technical breakthroughs are what grab headlines — rarely are the successful efforts of corporate marketing or brilliant production logistics recognized or mentioned.  It’s a disconnect to judge a R&D’ lab’s success completely on the financial returns of its inventions.

The laser printer in particular, removes the myth that Xerox PARC mismanaged all of its developments. Gary Starkweather, a brilliant optical engineer for Xerox PARC, developed the laser printer. Starkweather had pitched battles with Xerox management over promoting the laser printer, but eventually he triumphed and the laser printer went on to earn billions of dollars — enough to repay the investment cost of Xerox PARC several times over. Eventually Starkweather moved on to greater opportunities when Steve Jobs offered him a job in Cupertino.

Brilliant R&D technology, requires an equally creative or open-minded group of executives for  converting technology innovation into a marketable product.  These decision makers must maintain iron-wills and courage to shepherd the technology product through its entire volatile development process.

IBM’s iconic 305 RAMAC, the first commercial ‘super computer,’  is a classic example of a product development challenge. Introduced in 1956, the RAMAC featured a hard disk drive (HDD) and stored a — whopping five megabytes of data. Apparently, the HDD storage capacity could’ve been expanded well beyond the 5MB, but was not attempted because — IBM’s marketing department didn’t believe they could sell a computer with more storage.                   

IBM 305 RAMAC — first commercial computer to use a hard disk drive in 1956.

R&D Labs take creative risk in developing new ideas, most of these developments won’t make it to market, but that’s the price of creativity. Using intuition for taking risks and knowing some failure is necessary to pave the road toward successful discoveries — builds confidence in trusting one’s creative resources. So often, the creative-process is misunderstood and undervalued in our society’s perceived need for instant control and results. In the past, I’ve personally witnessed this attitude reflected in our educational system, however the viewpoint is  progressively shifting to realize the value of the creative-process. Steve Jobs and Apple Computers are a good illustration of a company, which traditionally emphasized and embraced the creative spirit. Creative employees are considered the most valued resource at Apple as they are encouraged to nurture their creative uniqueness. Shortsighted emphasis on quarterly results, which has affected most of American business culture, is refreshingly absent from Apple’s overall mindset, allowing for more sustained and successful business initiatives.

Where Have All The R&D Labs Gone — Innovation Versus Invention

The era of industrial, ‘closed inventive’ research & development labs — have faded into the background of yesterday’s business culture. Internal silos, once the proprietary norm, have been day-lighted to allow fresh ideas and collaborative efforts to circulate.

For the past 10 years, corporations have steadily reversed their long-term, pure scientific research in favor of  efforts towards quicker commercial returns. In 2011, Intel Corporation, dropped its  ’boutique’ research lablets‘ in Seattle, Berkeley and Pittsburgh  — opting for academic research to be conducted at university facilities. Intel continues to maintain its more profit oriented Intel Labs. This industry strategy, repeatedly cloned itself within the corporate research world, as it is far easier to realize a profit from innovation than pure invention.

Perhaps the golden-age of great research & development labs have run their course — but not before replacing the analogue, industrial era technology with a digital one. A century ago, using creative, innovative and bold scientific vision, Bell Labs set the standard for future R & D Labs. Xerox PARC, helped to extend Bell Labs’ marvelous inventions and innovations with a solid platform of creative research for developing mass markets in the postmodern telecommunications and personal computing of today.  ~

 

  Pause & Reflect: Questions for continuous learning – part 2. 1.) Name the parent company (based in New York) featured in the essay and its research and development lab, which moved into California’s Bay Area? 2.) What was the profitable product (used for duplicating documents), that  this company had originally been built on? 3.) Give at least two reasons why this R&D lab was so inventive? 4.) What stopped the lab’s parent company from realizing more profits from its inventions? 5.) What was the name of  both the young, iconic tech entrepreneur and his company (named after a red fruit), who was able to creatively package and market early Silicone Valley PC innovations? 6.) What’s the difference between invention and innovation? 7.) In your opinion, who were the top 10 inventors of all time and how did they make your top 10?

.

.

References & Links    

wp- CREATIVE COMMUNITIES v5.indd
Bell Labs – Wikipedia, the free encyclopedia
Bell Labs
Telstar 1: The Little Satellite That Created the Modern World 50 Years Ago | Wired Science | Wired.com
Was Bell Labs Overrated? – Forbes
Top 10 Greatest Inventors in History | Top 10 Lists | TopTenz.net
History of Lucent Technologies Inc. – FundingUniverse
Volatile and Decentralized: The death of Intel Labs and what it means for industrial research
Inventive America | World | Times Crest
Bell Labs Kills Fundamental Physics Research | Gadget Lab | Wired.com
http://www.westernelectric.com/history/WEandBellSystemBook.pdf
HistoryLink.org- the Free Online Encyclopedia of Washington State History
Xerox PARC, Apple, and the Creation of the Mouse : The New Yorker
1956 Hard Disk Drive – Disk Storage Unit for 305 RAMAC Computer
IBM 305 RAMAC: The Grandaddy of Modern Hard Drives
WSJ mangles history to argue government didn’t launch the Internet | Ars Technica
A History of Silicon Valley

.