Jimmy Carter

39th President of the USA. 21-1-1977 to 20-1-1981

And the Voyager 1 Spacecraft.

"We cast this message into the cosmos ... Of the 200 billion stars in the Milky Way galaxy, Some - perhaps many - may have inhabited planet and space faring civilisations. If one such civilisation intercepts Voyager and can understand these recorded contents, here is our message: We are trying to survive our time so we may live into yours. We hope some day, having solved the problems we face, to join a community of Galactic Civilisations. This record represents our hope and our determination and our goodwill in a vast and awesome universe."

U.S. President Jimmy Carter's official statement placed on the Voyager spacecraft for its trip outside our solar system, June 16, 1977

NASA's Voyager 1 has reached the final frontier of our solar system,

having travelled through a turbulent place where electrically charged particles from the Sun crash into thin gas from interstellar space. (in 2005)

Astronomers tracking the little spaceship's 37 year journey from Earth ( in 2014 )

know Voyager 1 has gone through a region known as termination shock, some 14 billion kilometres from the Sun, and entered an area called the heliosheath.

"Voyager 1 has entered the final lap on its race to the edge of interstellar space," Edward Stone, Voyager project scientist at the California Institute of Technology, said in a statement. (in 2005)

Voyager watchers theorised in (2006) that the craft might be reaching this bumpy region of space when the charged solar particles known as the solar wind seemed to slow down from a top speed of 2.4 million km/h.

This was expected at the area of termination shock, where the solar winds were expected to decelerate as they bump up against gas from the space beyond our solar system.

By monitoring the craft's speed and the increase in the force of the solar wind, Voyager scientists now believe the craft has made it through the shock and into the heliosheath.

Predicting the location of the termination shock was hard because the precise conditions in interstellar space are unknown and the termination shock can expand, contract and ripple, depending on changes in the speed and pressure of the solar wind.

"Voyager's observations over the past few years show the termination shock is far more complicated than anyone thought," said Eric Christian, a scientist with NASA's Sun-Solar System Connection program.

Voyager 1 and its twin spacecraft Voyager 2 were launched in 1977 on a mission to explore the giant planets Jupiter and Saturn. The pair kept going, however, and the mission was extended.

At almost 70 times farther from the Sun than the Earth, Voyager 1 is at the very edge of the Solar System. The Sun there is only 1/5,000th as bright as here on Earth, so it is extremely cold, and there is very little solar energy to keep the spacecraft warm or to provide electrical power. " The reason they can continue to operate at such great distances from the Sun is because we have radioisotope thermal electric generators (RTGs) on the spacecraft that create electricity and keep the spacecraft operating," JPL said.

"The fact that the spacecraft is still returning data is a remarkable technical achievement."

Then, because its trajectory was designed to fly close to Saturn's large moon Titan, Voyager 1's path was bent northward by Saturn's gravity, sending the spacecraft out of the ecliptic plane -- the plane in which all the planets except Pluto orbit the Sun.

"The Voyager mission today presents an unequalled technical challenge. The spacecraft are now so far from home that it takes nine hours and 36 minutes for a radio signal travelling at the speed of light to reach Earth," said Ed B. Massey, project manager for the Voyager Interstellar Mission at JPL. "That signal, produced by a 20 watt radio transmitter, is so faint that the amount of power reaching our antennas is 20 billion times smaller than the power of a digital watch battery."

Although beyond the orbits of all the planets, the spacecraft still are well within the boundary of the Sun's magnetic field, called the heliosphere. Science instruments on both spacecraft sense signals that scientists believe are coming from the outermost edge of the heliosphere, known as the heliopause.

The heliosphere results from the Sun's emitting a steady flow of electrically charged particles called the solar wind. As the solar wind expands supersonically into space in all directions, it creates a magnetised bubble -- the heliosphere -- around the Sun. Eventually, the solar wind encounters the electrically charged particles and magnetic field in the interstellar gas. In this zone the solar wind abruptly slows down from supersonic to subsonic speed, creating a termination shock. Before the spacecraft travel beyond the heliopause into interstellar space, they will pass through this termination shock.

"The data coming back from Voyager now (2007) indicate that we are now passing through the termination shock ".

Reaching the termination shock and heliopause is a major milestone for the mission because no spacecraft have been there before and the Voyagers will gather the first direct evidence of their structure. Encountering the termination shock and heliopause has been a long-sought goal for many space physicists, and exactly where these two boundaries are located and what they are like still remains a mystery.

Science data are returned to Earth in real-time to the 34 - meter Deep Space Network antennas located in California, Australia and Spain. Both spacecraft have enough electricity and attitude (direction) control propellant to continue operating until about 2020, when electrical power produced by the RTGs will no longer support science instrument operation.

In December 2010 it was confirmed by JPL control that Voyager 1 had passed the reach of the solar wind from our sun. It was always suspected that this (wind) would turn sideways due to interstellar wind pushing against the Heliosphere. Since June 2010 detection of this wind from Voyager 1 was at zero, proving this.

Voyager 1 was now approx. 17.3 Billion Kilometers for our sun ( in 2011 )

On March 8th 2011 Voyager 1 was commanded, from earth tracking stations, to change it's position to detect the current direction of the solar wind.

A Test on February 2011 had determined that Voyager 1 could do this.

It rotated correctly to detect the solar wind, as commanded.

This was the first time Voyager 1 had responded to earth's commands since 1990.

Voyager 1 has now responded as at June 2011, to Earth's commands, to re-orientate itself to Alpha Centauri which is Voyager 1's guide star, so it can begin sending transmissions back to earth.

This is a major step forward for Voyager 1.

At this time, Voyager 1 will be almost 160 times farther from the Sun than the Earth -- almost 18 billion kilometres) away.

Voyager 1 will be departing the Solar System at a speed of 39,000 miles per hour (17.4 kilometres per second ). At the same time, Voyager 2 will be 5.1 billion miles (8.1 billion kilometres) from Earth and is departing the Solar System at a speed of 35,000 miles per hour (15.9 kilometres per second).

In April 2013 it has been recorded that Voyager 1 will finally exit our solar system.

This will be the first man made object to do this.

This means Voyager 1 will now be in deep space beyond our solar system.

Over 20 Billion Kilometres away.

It's instruments can operate until the RTG's can continue to provide power and that will mean a gradual loss of instruments until about 2020 when all functions will stop. Until then Voyager 1 will transmit information to and from earth with a (about) 20 hour delay each way due to the distance that Voyager 1 has from Earth.

Wherever they go, the Voyagers each carry a golden phonograph record which bears messages from Earth, including natural sounds of surf, wind, thunder and animals. There are also musical selections, spoken greetings in 55 languages, along with instructions and equipment on how to play the record.

Along with this was a picture of Man and Woman, our planet, it's basic descriptions, our solar system and items of interest like Money Systems (currency, banknotes).

A retired high ranking military general was asked about UFO's on a current affairs TV show once.

He stated that he would not give any information whatsoever on the subject but added that it was of great interest that images and descriptions of our people, planet and solar system were placed aboard the Voyager spacecraft.

He stated " If we are definitely alone in the universe why did we do all this ? "

We read writings that were written on walls, in caves, tombs, written many many many years ago in a language we do not readily understand. We try and decipher them. Usually we manage to do that.

Perhaps the same will happen with the Voyager records.

Visit former U.S. President Jimmy Carter's personal UFO experience.

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