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Is Space Law Really That Far Over Your Head?

29 May
Sky_look_ BPP_ae208
  Multimedia Essay By: David Johanson Vasquez © All Rights  
 Part 1 of 2 Editions – To see an alternative graphic view of this story see: Space Law | bigpictureone                                                                 
Students and instructors are encouraged to use the visual cues imbedded within the text to quickly locate key information.
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, celestial artifacts. Almost at the start of the space race, “Space Law” was launched and it has 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 overtime 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 attached near the thrust nozzle to help initial launch guidance and a gyro control for flight over the desert in New Mexico. A German scientist, Wernher von Braun’s V-2 rocket borrowed Goddard’s basic design for refinement and increased its scale for later mass production. Used by the German military towards the end of World War II, the V-2 or Aggreat-4 ( A-4) was successfully launched in 1942, making it the first human made object to enter outer space.   http://www.v2rocket.com/start/makeup/design.html
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 83 to 93 km (52 to 60 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.
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

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.
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 & 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. 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.
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 rush reaction to the Soviet Union’s surprise success of launching the world’s first satellite, Sputnik, on October 23, 1957. WA Okang SatDshBP_e1103
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)
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.    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 .   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 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.
Global location & GPS coordinates of major spaceports & launch sites. ??? - 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?

                                                                                                                                                             Global location, GPS coordinates of major spaceports & launch sites. Rocket launch debris fields indicated & 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 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 threaten by a rocket launch, which could experience a catastrophic failure is why oceans are used as a safety barrier. Legal liability from a launch vehicle is a reason why all ships and aircraft are restricted from being anywhere near a rockets 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?

Surprise space mission featured videos: Click → http://www.youtube.com/watch?v=rfVfRWv7igg →    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 And Related Issues.

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 

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 exist 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.
Photo illustration of space debris 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.

 WA Okang SatDshBP_e1103
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