GONE IN 30 SECONDS…

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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

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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.

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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

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Will The Next Jet Airliner You Fly Be Obsolete, And Ready for Early Retirement?

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Multimedia eLearning program authored by: David Anthony Johanson ©  – All written & graphic content on this site (unless noted) was produced by the author. Add: 2.0  For an alternative graphic format presentation, please visit: https://sciencetechtablet.wordpress.com/tag/commercial-jet-airliner-obsolescence/ 

This multimedia essay includes 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.]

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Like seeing a mirage in the distance, shimmering sunlight reflects off rows of metal fuselages densely packed in the summer light. A surreal scene of Boeing jet airliners dominates the view, while forming a metallic wall around sections of a regional airport.

Boeing_Paine_Field_747_ae3013Billions of dollars worth of jet airliners are now double parked around Paine Field, Snohomish County Airport, in Everett, Washington. “This development indicates the current success, Boeing is having at landing airliner orders and the result you’re seeing represents a record amount of aircraft production,”said Terrance Scott, a spokesman for Boeing Commercial Airplanes.

He said the Company is leasing this space from Paine Field so that planes can have the remaining work completed and be ready for delivery to their customers — also, this isn’t unique to Everett, but is happening at Boeing manufacturing facilities at Renton Field and at Boeing Field in Seattle.

“Boeing has always been a good neighbor and a fine customer for the airport, they are currently leasing areas to park their aircraft and the revenue generated is appreciated.” said Dave Waggoner, Airport Director at Snohomish County Airport — Paine Field.

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The global economy’s steady growth has increased passenger traffic, which puts pressure on the airlines to purchase new aircraft for satisfying demand. Continued drops in jet fuel prices benefits air travel industry profits, giving further incentives for fleet investments. Additionally, with historically low-interest rates, lending institutions find new opportunities in aviation financing, enabling expansion of corporate sales. However, financing for used planes is another matter. Cash is drying up for previously owned jetliners — which puts pressure to part-out, then scrap relatively newer-used aircraft. Boeing_Paine_Field_BPP_ae3009

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Could The New Normal Be Shorter Aircraft Service-Life For Airliner Fleets?

Recently, published reports noted a shift towards an assumed obsolescence and accelerated scraping of newer airliners — well before structural integrity or air worthiness becomes a problem, middle-aged aircraft are experiencing vulnerability to an early end-of-life. Clearly, accelerated scraping of newer aircraft is not due to any structural concerns, but rather, cyclical conditions of the industry. To appreciate these concerns a review of an airliner’s operational lifespan may help clarify some of the issues.
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Aircraft manufactures use pressurization cycles to determine an airliner’s operational lifespan. A pressurizing cycle includes three distinct aircraft flight activities — takeoff, climbing until it reaches a cruise altitude and then landing. During this process, air is pumped into the fuselage to pressurize the cabin for passenger comfort. This repeated pressurization flexes or expands the fuselage — consequently stress is put on various connecting components, including fasteners and rivets — which helps to hold the structural integrity of the plane together. After a certain number of landing pressurization cycles, stress or metal fatigue can begin to develop, eventually causing small cracks around the fasteners. Pressurization/landing cycles mainly concern the life of an aircraft’s fuselage, wings and landing gear.

The interior of fuselage section, showing perpendicular rings, which are called frames.

The interior of fuselage section, showing perpendicular rings, which are called frames.


The interior of fuselage section, showing perpendicular rings, which are called frames.

Maintenance schedules and lifespan of jet engines are measured in the number of flight hours. Aircraft engines, followed by landing gear and then avionics are the most valuable components for part-out and dismantling specialist operations. Ultimately, engine condition is the major factor in an owner’s decision to part-out an aircraft.

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For short flights, single or smaller double aisle craft are used to carry passengers, which may go through many landing or pressurization cycles for everyday operations. The more takeoffs and landings, means a shorter operational lifespan for the plane. On long overseas flights, wide body or jumbo jets such as 747s experience fewer landing cycles. These larger airliners, especially ones use for cargo operations can have longer lifespans of upwards of 20 or 30 years. In the U.S., the FAA requires an initial inspection on Boeing 737s, which have 30,000 takeoffs and landings using electromagnetic testing. Mandatory inspections are required for finding cracks in the fuselage or metal fasteners.

Dreamliner_BPP_e2121Boeing has a history of ‘over-engineering’ components of its aircraft, which is actually a good thing for ensuring passenger safety and for an extended service-life of the aircraft. Historical evidence of this conservative engineering practice is documented in WWII archival film footage of blown-apart B-17s returning from a mission and safely landing. There are more recent examples of Boeing commercial aircraft surviving dramatic inflight catastrophic failures, with most of the passengers and crew landing safely.

Photo-illustration of an aircraft end-of-life center (aircraft boneyard.)

Photo-illustration of an aircraft end-of-life center (aircraft boneyard.)

Compound Forces Working Against Long-Life-Cycle Aircraft

What are the current forces, which hasten the end-of-life of a commercial jet airliner? Recurring cycles or patterns of economic and technological events influences the commercial aircraft industry on a daily basis. Various ripple-effects of these cycles can quickly alter new and used aircraft asset valuation. Airline leasing companies have a major influence, in providing their customers with the aircraft assets they need. Unless the buying customer has solid credit, it’s doubtful they can secure financing for previously-owned airliners. Also, tax incentives exist for Airline companies to use depreciation right-offs by decommissioning all but the most advance aircraft assets. photo illustration

Maintenance requirements are a long-term, yet fluid, financial concern for a company’s airline fleet. The newer designed aircraft are manufactured with significantly fewer parts than previous models. Consequently, reduction in parts has an impact on reducing maintenance expenditures — including smaller service crews, hours spent on inspection and a reduction of overall repairs. Also, spare parts inventories for maintaining the aircraft’s optimum performance can substantially be reduced compared to an older aircraft. The cost savings benefits are compelling incentives for eliminating older, higher maintenance, aircraft assets.

Boeing_Flt_Line_BPP_bg0187As mentioned previously, the considerable reduction of parts used in manufacturing newer aircraft provides an immediate benefit of up to 20 percent weight reduction. Without compromising strength or aircraft structural integrity, the cost savings from less weight begins the day an airliner is put into service. Traditionally, fuel-efficiency is the “holy grail” used for selecting an aircraft — the amount of fuel-burn affects the daily operational cost of an airline company. After a decade of service an older airliner reaches mid-life, it may require upgraded and modification conversions to the aircraft’s wings (winglets) or need new fuel-efficient jet engines. However, these conversions reach a threshold of diminishing returns from such investments. As a result, keeping an older aircraft competitive with newer models may not pay off at a certain point. That’s when permanent retirement and parting-out the airliner begins to make economic sense and the aircraft’s end-of-life management begins.Boeing_Paine_Field_BPP_ae3134

Inevitable Problems Facing Aircraft Electronic Systems (Avionics) Obsolescence

The most perplexing problem facing all commercial aircraft is how to ensure its critical avionics systems continue to evolve and stay up-to-date. Avionics provides the central nervous system or a central processing unit (CPU) framework for a commercial aircraft. It’s a marvelous matrix of advanced electronic systems technology, which constantly communicates with itself, the pilots and the outside world. More so than any other components making up an aircraft’s technological system, its management and functionality duties are beyond comparison. Each year avionics components physically contract in size, yet they expand immensely in functionality and system management. 

Cell_Phone_Tlk_BPP_et82Here’s an example to help clarify this dichotomy of physical contraction and expansion of technical functionality. Your smartphone can be used as a basic representational model for avionics obsolescence. The phone you’re holding in your hand has a superior mobile graphics processor and sheer number-crunching power advantage over IBM’s Deep Blue supercomputer of the late 1990s. Yet, you can hold your phone in hand, compared to Deep Blue, which was the size of a large refrigerator. However, advanced your smartphone is today, a year from now it’ll be obsolete and two years from now… a quaint antique.  If you grabbed your smartphone and considered the example, you just experienced Moore’s law of observation — ‘over the history of computing hardware, the number of transistors in a dense integrated circuit doubles approximately every two years.Man_micro_chip_BPP_et169

Now, imagine trying to update a complex system such as an airliner’s avionics bay, in five-years, 10-years or 15-years. The installation and the majority of electronic systems are not made by the Aircraft’s original equipment manufacturer Mars Frontier series(OEM) such as Boeing or Airbus. Moreover, the vendors or suppliers 10 or 15-years from now who were the OEM, may be out of business.  In the meantime, new replacement components may have to substitute the obsolete equipment. However, the aircraft industry is highly regulated by government agencies, which require strict certification of equipment modifications. As a result of these constraints, aircraft manufacturers such as Boeing, developed obsolescence management strategies to help mitigate these ongoing concerns. But there are always unforeseen obstacles and many moving parts to coordinate before the necessary electronic components are available when needed. Clear, transparent communication is necessary between internal engineering and purchasing departments. Successful collaboration at all levels can present major challenges, especially if the objectives and timetables are not each group’s priority.

So aircraft avionics are the vulnerable underbelly of airliner obsolescence — with financial consequences associated with accelerated, technology — necessitating complex and expensive electronic upgrades.

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Airspace Navigation Service Providers (ANSP), which includes the FAA and the European counterpart EASA — have established new mandate requirements for avionic component upgrades. The purpose of this technology is for enhanced data link digital communication, which interacts instantly with aircraft Flight Management Systems (FMS). These requirements include, Automatic Dependent Surveillance-Broadcast (ADS-B), Controller-Pilot Data Link (CPDLC) and the Future Air Navigation System (FANS) enables text messaging and global position through satellite communications. The new civil aviation mandates are part of the next generation air traffic computer technology called NextGen, which represents air traffic infrastructure’s future for the next 10 to 15 years.

Used Aircraft Components, Harvested For Premium Returns, Is The Retired Airliners Last Call In Service Before Its Final Destination.

Perhaps aircraft boneyards are flying under the radar as virtual gold mines, as refurbished parts are easily sold at market value. The savings of buying used, over new aircraft parts is incentive for expanding the market. Engines, landing gear and avionics are the most expensive components of an aircraft. These prized components are a highly valued commodity and are quickly snapped up. Specialized systems are not manufactured by companies such as Boeing or Airbus, but by outside OEM. Parts sold brand new by the manufacturer are considerably more expensive than buying used.

Money_int _BPP_a223Next Generation aircraft such as the Boeing 737-600 and even a 737-800, which was reported to have had a hard-landing, reached their end-of-life as scrap.  Also, Airbus has had similar, newer single-aisle aircraft models reached their final destination in the aviation boneyard.  Aircraft Fleet receivable Association (AFRA) estimates 600 commercial jet airliners are scrapped yearly. By 2023 it’s estimated the number of commercial airliners scrapped will reach 1000 per-year.

Efforts Of The Aviation Industry To Leave A Smaller Environmental Footprint.

In 2008, the Boeing Company reached out to Airbus in collaboration, with the goal to vastly improve aircraft recycling technology. Airbus estimates they are recycling 85 percent of the entire aircraft, the remaining cabin interior amounted to 15 percent and was the only materials added to landfills.     Earth Day 2010

The best takeaway from the issues surrounding accelerated airliner service-life is that less fuel is consumed by the newer fleets. As older, less efficient aircraft are replaced — a 20 percent reduction in fuel emissions will not enter the atmosphere from the next generation aircraft replacements. If the world’s commercial airline manufactures continue to devote more effort towards efficient recycling of past generation aircraft, we can look forward to clearer skies ahead.         ~
photo illustration

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Special thanks to The Future of Flight Museum, for allowing photos to be taken from their excellent observation deck.

http://www.futureofflight.org                       A surprise appearance of a Boeing Dreamlifter has photographers scrambling to be ready.

 

Aerial view of Paine Field Airport looking north.

Aerial view of Paine Field Airport looking north.

Airliner Obsolescence Quiz    (Read the entire question before answering.)

1. ) What three economic incentives are currently influencing airlines to purchase new aircraft for satisfying travel demand? ______________________________________ _________________________________ & _________________________________
2. ) (True or False) Structural integrity or air worthiness of current generation airliners is the main issue why these aircraft are being retired early. _______ If you answered false, give at least one other reason why this is occurring. ____________________________ _____________________________________________________________________
3. ) Aircraft manufactures use, what type of  ___________ cycles to determine an airliner’s operational lifespan?
4. ) Name the three distinct aircraft flight activities used to determine an airliner’s operation lifespan? _________________________ __________________________ ____________________________________________
5. ) Maintenance schedules and lifespan of jet engines are measured in the ________________ hours.
6. ) Aircraft _________ followed by ____________ and then ___________ are the most valuable components for the part-out and dismantling specialist operations. Fill in the blanks above by selecting the proper order of component value, using the following list: (bulk heads) (wire bundles) (avionics) (engines) (landing gear)
7. ) Selecting from the choices listed below, which aircraft will typically experience more pressurization cycles and why? A or B ____________  A. Jumbo jet (larger, multi isle aircraft) which is used for longer, overseas flights. B. Smaller, single isle jet airliners, which are used more for shorter, domestic flights.  Now explain why? ______________________________________________________________________ ______________________________________________________________________    8. ) Multi-isle airliners or jumbo jets, used for longer international flights or for cargo operations can have life cycles of upwards of ____ – ____ years. Select the best match from these sets: 5 − 15, 10 − 15, 20 − 30, 30 − 40 years. 

9. ) Explain why a larger commercial jet airliner, which flies longer over-sea routes, would have a longer operational life than a smaller aircraft, which is used on much shorter routes? __________________________________________________________________ ________________________________________________________________________
10. ) What procedure is required by the FAA for a Boeing 737 airliner, which completes 30,000 takeoffs and landings? _______________________________________________ ________________________________________________________________________
11. ) The newer designed aircraft are manufactured with significantly fewer parts than previous models, list at least two reasons why this is an advantage and would make older aircraft obsolete? _______________________________________________________ ______________________________________________________________________
12. ) What aircraft component traditionally has been considered the “holy grail” used by the airline industry for selecting an aircraft? _____________________________________
13. ) When permanent retirement and parting-out the of an airliner begins to make economic sense, what form of management begins for that aircraft? ____________________ Select one of the following: end-of-days, end-of-life, retirement cycle, recycle phase.
14. ) What critical system of an airliner is considered its “central nervous system” or CPU for overall control of the aircraft? ________________________________ Give at least two reasons why this system contributes to a jet becoming obsolete? ________________________________________________________________________ ________________________________________________________________________
15. ) Approximately how many aircraft are permanently retired or scrapped in a year? __________________ By 2023, how many aircraft are expected to be scrapped? _____________________
16. ) Regarding commercial aircraft recycling technology, what percentage does Airbus estimate it is recycling of the entire airliner ___ 40 %, 65 %, 75 % or 85 % What percent of the aircraft is not recyclable ___ 60 %, 50 %, 25 %, or 15 %  What part of the airliner is not recyclable ____________________ and where does it end up? _______________
Answer key is located at the very bottom, after program sources & related links

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Sources & Related Subject Matter Links

This link shows live air traffic anywhere in the world. View how congested the sky’s are over the world’s busiest airports.

http://www.flightradar24.com/47.79,-122.31/7

Aircraft Bluebook – Used for aviation asset valuation

http://www.boeing.com/assets/pdf/commercial/aircraft_economic_life_whitepaper.pdf

http://marketline.squarespace.com
http://www.boeing.com/boeing/companyoffices/aboutus/brief/commercial.page

http://www.airbus.com/innovation/eco-efficiency/aircraft-end-of-life/

http://www.airspacemag.com/need-to-know/what-determines-an-airplanes-lifespan-29533465/?no-ist

http://www.faa.gov/aircraft/air_cert/design_approvals/air_software/media/ObsolescenceFinalReport.pdf

http://aviationweek.com/awin/nextgen-obsolescence-driving-avionics-refurbs

http://www.theguardian.com/business/2013/jun/11/boeing-commercial-planes-double-asia-pacific

http://www.airliners.net/aviation-forums/general_aviation/read.main/5740876/

http://avolon.aero/wp/wp-content/uploads/2014/06/Aircraft_Retirement_Trends_Outlook_Sep_2012.pdf

Article & photos on U.S. aircraft boneyards

http://www.johnweeks.com/boneyard/

http://www.dailymail.co.uk/sciencetech/article-2336804/The-great-aviation-graveyard-New-aerial-images-hundreds-planes-left-die-American-deserts.html

Article, photos & interactive map of U.S. aircraft boneyards

http://www.airplaneboneyards.com/commercial-aviation-airplane-boneyards-storage.htm

Excellent aerial video of Airplane Graveyard (Mojave Airport, California)

http://www.youtube.com/watch?v=6RjaoR7Zk2s

 

Airliner Obsolescence Quiz Answer Key

1.  ) Satisfying increased travel demand   Fuel cost savings & Historically, low-interest rates for financing new aircraft

2.  ) True    Newer aircraft are replacing airworthy, older aircraft due to much less operating cost, including fuel savings and maintenance issues.

3.  ) Pressurization or Landing cycles

4.  ) Takeoff    Climbing to cruise altitude    Landing

5.  ) Number of flight hours

6. ) Engines  landing  gear avionics

7. )       Shorter service routes typically involve more landing and takeoffs as the airliner satisfies domestic travel demand

8.  )   2030 

9.  )  An airliner flying overseas route would most likely have fewer takeoffs and landings, due to the longer flight time required to reach its destination

10.)  Electromagnetic testing for finding cracks in the fuselage or related components

11.)   Fewer parts can result in an airliner weighing up to 20 percent less than older models, which can correlate to the same percentage of fuel savings. The maintenance cost is substantially lower allowing for more savings over older aircraft with more component parts.  

12.)  Fuel-efficiency

13.)  End-of-life

14.)  Avionics   electronic components used for avionics may not be available or upgradeable due to obsolescence   upgrading obsolete avionics may require expensive redesign

15. )   Up to 600   1000

16. ) 85 %   15 %   Cabin interiors   Landfills

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

 
Mars Frontier series

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

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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

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How Earth Conquered Mars And Successfully Colonized The Red Planet

March 2054

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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

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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

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

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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.

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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/ 

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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.

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                        Mars Frontier series

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

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Electromagnetic propulsion “asteroid lifter” encounters solar wind storm.                                    

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NASA illustration.

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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

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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.

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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

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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 

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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

 

 

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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 

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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.

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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.

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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.]

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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. 

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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.

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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.

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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.

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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

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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
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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

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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

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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

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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

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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

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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

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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.

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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

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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

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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

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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

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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

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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

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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

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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

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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

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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

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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.

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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

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Is Space Law Really That Far Over Your Head?

Sky_look_ BPP_ae208
  Multimedia Essay By: David Johanson Vasquez © All Rights  

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 Part 1 of 2 Editions  – To view an alternative graphic format see: 
Science Tech Tablet | A site dedicated to technology, science and learning.
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Look upwards toward the sky on the next clear day or cloudless night and behold the new legal frontier unfold before your eyes. A mere 65 miles above sea-level, our atmosphere and gravity dwindles into space, where satellites begin to glide silently over Earth’s thin atmosphere. Only a fraction of human history has passed since man-made satellites were far and few between — but that time has since slipped away, replaced by an ever tightening metal jacket of used and disregarded manufactured, celestial artifacts. Almost at the start of the space race, “Space Law” was launched and it’s had an uphill battle to catchup with the unforeseen consequences of humanity’s reach for the heavens.

The German V-2 rocket was a sophisticated liquid propellant rocket, which first entered outer-space in 1942.
The German V-2 rocket was a sophisticated liquid propellant rocket, which first entered outer-space in 1942.

At times, defining what Space Law is or does is a nebulous task. This new form of law can be so abstract and full of contradictions that it resembles an art, rather than a science. Like creating a massive sculpture, it’s often a process which involves slow progress — developing over time through stages of careful analysis and discernment. Space Law will continue to transform itself by maturing, developing refinements and taking on new dimensions as needed.

There are basically three forms of law, which make up Space Law: 1.) Regulatory Law – sets standards which must be met for securing authority to launch a rocket vehicle.  2.) Tort Law – concerns damages which occur as a result of debris from rocket launch accidents or space and terrestrial impacts from orbital debris. 3.) Common Law – could be applied to circumstances relating to a private entity’s negligence, which causes damage from its orbital debris.

Back To Rocket Science Basics.

The basic blueprint for all modern rockets used in today’s space programs originated from the American physicist, Dr. Robert Goddard, who is considered the father of modern rockets. By the late 1930s, Goddard had tested a liquid propellant rocket — the rocket used vanes or fins near the thrust nozzle to help initial launch guidance and a gyro control for flight over the desert in New Mexico. The German scientist, Wernher von Braun’s V-2 rocket borrowed Goddard’s basic design for refinement and increased its scale for later mass productionUsed by the German military towards the end of World War II, V-2 or Aggreat-4 ( A-4) was successfully launched in 1942, making it the first human made object to enter outer space.

The V-2 was a sophisticated liquid propellant, single stage rocket, which had a top speed of 5,760 km/h (3,580 mph) and could reach an altitude of 206km (128 miles.) At the end of the war, the Americans, British and Russians took possession of all remaining V-2 rockets, along with German engineers, technicians and scientists working on the program. A high priority was placed on researching its capabilities, re-engineering and developing it for national security.

— The Paul Allen Flying Heritage Museum, located at Paine Field, Everett, WA, recently added an authentic V2 rocket for display.

American scientists James Van Allen and Sydney Chapman were able to convince the U.S. Government of the scientific value for launching rockets carrying satellites into space. A scientific effort in the early 1950s was begun, with the plan to launch American satellites by 1957 or 1958. The Russians surprised the World by launching the first satellite into orbit in 1957 named Sputnik.

First photograph from space & of the Earth, from a V-2 rocket in 1946 byU.S scientist.
First photograph from space & of the Earth in 1946, from a V-2 rocket at an altitude of 65 miles, by U.S. scientist. Photo: courtesy of U.S. Army
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 & 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. Photo: courtesy of NASA/U.S. Army
Most major space portals or rocket launch site are located next to oceans or remote location to limit legal liability in case of failed launch. It's estimated 10 % of rocket launches end in failure. Photo illustration: David Johanson Vasquez ©
Most major space portals and rocket launch sites are located next to oceans or remote locations to limit legal liability in case of a failed launch. It’s estimated 8 % of rocket launches end in failure. Photo illustration: David Johanson Vasquez ©
What Goes Up Must Come Down.

Rocket launch programs have always had to contend with Newton’s law of gravity, today, these programs face new challenges with liability laws, to protect individuals and property from unexpected accidents.

Case Study:  The first time a major issue of liability occurred 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 the launching of 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.” 

A photo illustration of space debris from a low Earth orbit reentering the atmosphere over a city. 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 sets the liability for damages caused by the space debris to the nation or agency responsible responsible to its original rocket launch.
A photo illustration of space debris from a low Earth orbit reentering the atmosphere over a city. 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 sets the liability for damages caused by the space debris to the nation or agency responsible for its original rocket launch.

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.)

Because so many languages are involved with these international agreements, terms used in Space Law, often gets lost in translation. There are linguistic limitations and general lack of necessary definitions to adequately cover specific space concepts and activities using Space Law. Each Nation has its own agenda and vision concerning the development of space — then throw in multinational companies and things get really diluted when it comes to working out agreements regarding laws governing space.

Although most large "space junk" is monitored and efforts are made for reentry over uninhabited areas, satellites or sections of rockets can potentially fall anywhere.
Although most large “space debris” is monitored and great efforts are made for reentry to take place over uninhabited areas – satellites or sections of rockets can potentially fall anywhere.
Cuba Gives A New Meaning To A Cash Cow.

Case Study:  In November of 1960, the second stage of a U.S. A 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.

It’s estimated since the 1950s, of the nearly 8,000 rockets launched for space related missions, 8 % of rocket launches ended in failure (2012 spacelaunchreport.com.) The resulting anomalies have cost the lives of hundreds of astronauts, cosmonauts and civilians along with billions of dollars in losses. Here’s an abbreviated list of dramatic and tragic events associated with rocket launch failures. WA Okang SatDshBP_e1103

Vanguard TV3, December 9, 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 by witnessing Vanguard’s explosive failure. Unfortunately this launch was a rushed reaction to the Soviet Union’s surprise success of launching the world’s first satellite, Sputnik, on October 23, 1957.

Vostok rocket, March 18, 1980, launched from Plesetsk, Russia (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)

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.

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. Click on this link to read the complete eyewitness story. →    Disaster at Xichang | History of Flight | Air & Space Magazine

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 . Click on this video link to see the rocket mishap. →    US rocket disasters – YouTube

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.

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.

World_spaceport-InterAf_Map

Global location, GPS coordinates & rocket debris fields of major Spaceports & launch sites. ( Click on map to enlarge)
Quiz ??? – Do you see any similarities in the geographic locations used for these launch sites? What advantages do these locations have regarding “Space Law?” For most rocket launches, which site has the greatest geographic advantage & why; which has the least advantage & why?
Location, Location, Location Benefits Rocket Launch Sites.

If you zoom into the above World map with its rocket launch sites, you’ll notice all the locations gravitate toward remote regions. Another feature most Spaceports share is large bodies of water located to the east, with the exception of the U.S. Vandenberg site. Less likely hood of people or property being harmed by a rocket which could experience a catastrophic failure is why oceans make a great safety barrier.  The legal liability for a launch vehicle is why all ships and aircraft are restricted from being anywhere near a rocket’s flight path. The rocket debris fields are marked with red highlights, this fallen debris is a highly toxic form of unspent fuel and oxidizers.

Most rockets are launched towards an easterly direction due to the Earth’s eastern rotation, which aids the rocket with extra momentum. An exception for an east directional launch is Vandenberg site in California, which launches most of its rockets south for polar orbits used by communication and mapping satellites.

Launching rockets closer to the equator gives a launch vehicle one more advantage — extra velocity 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 to reach “escape velocity.” This fuel savings translates to a lighter launch vehicle, making the critical transition of leaving Earth’s gravitational field quicker.

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?
Links And Resources For Space Law.

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International space law is emerging from its infancy, attempting to more clearly define itself from a nebulous amalgam of; agreements, amendments, codes, rules, regulations, jurisdictions, 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 & dynamics of space activities, exceptions will be made and rules will be stretched, if not broken to accommodate necessity, justification or exculpation. ~

Surprise space mission featured videos: Click → Boards of Canada – Dawn Chorus – YouTube   

→     Boards of Canada – Music is Math (HD)

→     Boards of Canada – Gemini – Fan Video on Vimeo
WA Okang SatDshBP_e1103
Links And Resources For Space Law.

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

Part 1 of 2 editions – please check back soon for the conclusion of this essay. 
Photo illustration by: David Johanson Vasquez, using a NASA photo of Skylab.

Photo illustration of space debris by: David Johanson Vasquez, using a NASA photo of Skylab.

http://www.youtube.com/watch?v=nG9LUSf_qK8 

 WA Okang SatDshBP_e1103

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.

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"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. 

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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.

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The Latest Full Throttle Multimedia Video of Seattle From the R22 Beta Helicopter – Part 2 of 2

Multimedia video essay by: David Johanson Vasquez – © All Rights

BigPictureOne & ScienceTechTablet are dedicated sites for including excitement, experience & education in E-learning. To see an alternative graphic style of this story click on:  Science Tech Tablet

Have you ever traveled by helicopter and encountered a full-throttle-ride at a tree top level? Part 2 of my Helicopter video series is now online for you to experience. There are valuable safety tips, aerial photo techniques, employment requirements for helicopter mechanics  as well as the ultimate joyriding aerial views of Boeing Field and Seattle!

Collaboration and Clear Communication

Clear communication and teamwork between helicopter pilots and flight mechanics is essential for aviation safety. Professional collaboration and working experience is also required between a pilot and photographer for ensuring successful photographic results. On the day of this aerial photo shoot the helicopter we were using had some technical issues, which needed repairs before continuing the project for the Port of Seattle. With solid communication between pilot and ground crews established, the repairs were completed as the fast and furious activity of aircraft went on all around us.

Video by: David Johanson –  © All Rights

Helicopter Rear Rotor Blades Can Be a Liability

A February 2007 Rotor & Wing Magazine article by Tim McAdams, used two tragic crash events involving helicopter aerial photography to illustrate potential hazards encountered from the helicopter’s rear rotor. In the article it reported, “the NTSB determined the probable cause as the pilot-in-command’s improper in-flight decision to maneuver at a low airspeed with a left quartering tailwind, which resulted in a loss of tail-rotor effectiveness.”  The investigation of these and similar crashes helped to create the FAA Advisory Circular AC90-9, that warns pilots of conditions which can cause loss of flight stability due to stress on rear rotors.

Under no circumstances should anyone including ground crews be near the helicopter’s rear rotor while the engine is on. The video shows why helicopter rotor blades are painted with bright patterns to warn of their potential danger.

Fast and Furious

Helicopter operations are virtually never boring and are the centers of major activity. See how the latest video in the series explores Seattle’s dynamic landscape, Boeing Field operations and helicopter safety.

REFERENCES: (Click on these sites to learn more on the subject)

Helicopter Landing Area Safety

Safety Around Helicopters

Helicopter Hazards | Aeronautical Knowledge Handbook

Rotor Hazards

Tail rotor – Wikipedia, the free encyclopedia

Rotor & Wing Magazine :: Safety Watch: Loss of Tail Rotor Effectiveness

RC Helicopter Auto Rotation

http://www.fs.fed.us/fire/av_safety/promotion/safety_alerts/IA%20SA%2011-03%20LTE%20Final.pdf

Port of Seattle

King County International Airport/Boeing Field