PUBLIC INFORMATION OFFICE JET PROPULSION LABORATORY CALIFORNIA INSTITUTE OF TECHNOLOGY NATIONAL AERONAUTICS AND SPACE ADMINISTRATION PASADENA, CALIF. 91109. TELEPHONE (818) 354-5011 VOYAGER MISSION STATUS November 1, 1995 Voyager 1 is currently 9.15 billion kilometers (5.69 billion miles) from Earth, having traveled 10.87 billion kilometers (6.75 billion miles) since its launch in September 1977. The Voyager 1 spacecraft is departing the solar system at a speed of 17.46 kilometers per second (39,055 miles per hour). Voyager 2 is currently 7 billion kilometers (4.35 billion miles) from Earth, having traveled 10.28 billion kilometers (6.38 billion miles) since its launch in August 1977. The Voyager 2 spacecraft is departing the solar system at a speed of 16.08 kilometers per second (35,970 miles per hour). Both Voyager spacecraft are healthy and continue their departure from the solar system. As they travel farther and farther from the Sun, the two spacecraft are returning data to characterize the outer solar system environment and search for the heliopause boundary, the outer limit of the Sun's magnetic field and outward flow of the solar wind. Six science instruments on each Voyager spacecraft are collecting data on the strength and orientation of the Sun's magnetic field; the composition, direction and energy specta of the solar wind particles and interstellar cosmic rays; the strength of radio emissions that are thought to be originating at the heliopause, beyond which is interstellar space; and the distribution of hydrogen within the outer heliopause. These data are transmitted to Earth in real time, at 160 bits per second, and captured by 34-meter-diameter antennas of the Deep Space Network. Data are transmitted to JPL and made available in electronic files to the science teams located around the country for processing and analysis. Flight controllers believe both spacecraft will continue to operate and send back valuable data until at least the year 2015. It is the loss of electrical power from their radioisotope thermoelectric generators (RTGs) that will eventually cause them to stop functioning. At launch, the three RTGs on each spacecraft had a power output of 475 watts. Today, that output is 341 watts for Voyager 1 and 345 watts for Voyager 2. Approximately 215 watts are necessary to operate the spacecraft and limited cience instruments. The other vital consumable onboard the spacecraft is the amount of hydrazine propellant which keeps the Voyagers stable and pointed toward Earth. Each spacecraft started out with 104 kilograms of propellant. Today, after 18 years of flight, including multiple planetary encounters and trajectory correction maneuvers, Voyager 1 has 34 kilograms of hydrazine remaining and Voyager 2 has 36 kilograms remaining. However, during the current, quiet phase of the mission, each spacecraft uses only about six grams of fuel a week. Flight controllers stress the Voyagers will run out of electrical power long before they start spinning out of control due to loss of their attitude-adjusting propellant. It is estimated that Voyager 1 will pass the Pioneer 10 spacecraft in January 1998 to become the most distant human-made object in space. #####