Launch: August 20, 1977

Mission Duration: 45 years (and counting)

Launched less than two weeks before its twin, Voyager 1, Voyager 2 is the longest-operating spacecraft in history. Its primary mission was to explore the outer planets of the Solar System, and it has since become the first and only spacecraft to visit Uranus and Neptune.

Table of Contents

Mission Objectives

Conduct detailed studies of Jupiter and its major satellites
Investigate the nature of Saturn’s rings and moons
Study the atmospheres, interiors, and magnetic fields of Uranus and Neptune
Search for evidence of life in the outer Solar System

Mission Highlights

In 1979, Voyager 2 flew by Jupiter, sending back stunning images of the planet’s Great Red Spot and volcanic moons.
In 1981, it encountered Saturn, revealing the intricate structure of the planet’s rings and providing close-up views of its moons, including Titan.
In 1986, Voyager 2 reached Uranus, becoming the first spacecraft to visit the distant ice giant. It discovered 10 new moons and provided insights into the planet’s unique magnetic field.
In 1989, Voyager 2 completed its primary mission by flying by Neptune, the outermost known planet at the time. It discovered six new moons and captured iconic images of the planet’s swirling atmosphere and dark spots.

Interstellar Mission

After completing its primary mission, Voyager 2 continued on an extended mission into interstellar space. In 2007, it crossed the heliosphere, the boundary marking the edge of the Sun’s influence. It is currently traveling in the interstellar medium, providing valuable data on the composition and properties of the interstellar environment.

Scientific Discoveries

Voyager 2 has made numerous important scientific discoveries, including:

The discovery of active volcanoes on Jupiter’s moon Io
The detection of a global ocean beneath the icy surface of Jupiter’s moon Europa
The characterization of Saturn’s complex ring system
The discovery of Uranus’s tilted magnetic axis
The observation of Neptune’s Great Dark Spot and Triton’s nitrogen geysers
The detection of ionized hydrogen gas in the interstellar medium

Current Status

As of 2023, Voyager 2 is still operating and sending back data. It is located approximately 120 astronomical units (AU) from Earth, or about 11 billion miles. The spacecraft’s power supply is expected to last until approximately 2030.

Frequently Asked Questions (FAQ)

Q: What is the current location of Voyager 2?
A: Voyager 2 is currently located approximately 120 AU from Earth.

Q: When will Voyager 2 run out of power?
A: The spacecraft’s power supply is expected to last until approximately 2030.

Q: What is the significance of Voyager 2’s interstellar mission?
A: Voyager 2 is the first and only spacecraft to travel into interstellar space, providing valuable data on the composition and properties of the interstellar medium.

Q: What is the ultimate destination of Voyager 2?
A: Voyager 2 is heading towards the constellation Aquarius and is expected to continue traveling for millions of years.

References

NASA’s Voyager 2 Spacecraft Description

Launched in 1977, Voyager 2 is a robotic space probe that has explored the outer solar system and beyond. It is a twin spacecraft to Voyager 1, with both being designed to conduct flybys of Jupiter and Saturn.

Mission Highlights:

First spacecraft to perform flybys of all four outer planets: Jupiter, Saturn, Uranus, and Neptune.
Explored the outer planets’ moons, rings, and magnetic fields.
Provided detailed images and data on the atmospheres, surfaces, and compositions of these planets.

Spacecraft Design:

Octagonal bus with a centrally mounted, radioisotope thermoelectric generator (RTG) for power.
Equipped with a suite of instruments, including cameras, spectrometers, and a magnetometer.
Two extended booms for magnetometer and plasma experiments.
Three high-gain antennas for communication with Earth.

Current Status:

Voyager 2 is the only spacecraft to have entered interstellar space, beyond the heliopause where the sun’s influence ends.
It continues to operate and send scientific data back to Earth, providing valuable insights into the vast interstellar medium.

Voyager Program: History and Achievements

The Voyager program, launched by NASA in 1977, comprises two unmanned space probes, Voyager 1 and Voyager 2. Their mission was to explore the outer planets of the solar system, Jupiter and Saturn, and to study the interstellar medium beyond.

Voyager 1:

Launched in 1977
First spacecraft to fly past Jupiter (1979) and Saturn (1980)
Continued its journey to become the first human-made object to enter interstellar space (2012)

Voyager 2:

Launched in 1977
Flew past Jupiter (1979), Saturn (1981), Uranus (1986), and Neptune (1989)
Provided the first detailed images and scientific data on these planets and their moons
Also entered interstellar space in 2018

Achievements:

Provided detailed images and data on the gas giants and their moons
Discovered new rings around Jupiter and Saturn
Detected active volcanoes on Jupiter’s moon, Io
Explored the icy moons of Saturn, including Enceladus and Titan
Contributed to understanding the formation and evolution of the solar system
Extended our knowledge of the interstellar medium and the heliosphere
Demonstrated the resilience of spacecraft and the potential for long-duration missions

Spacecraft Voyager 2 Technical Specifications

Mass: 721.8 kg (1,591.3 lb)
Dimensions: 3.66 m (12 ft) in height, 1.88 m (6 ft 2 in) in diameter
Power: 470 watts from plutonium-238 RTGs
Communications: S-band radio at 2.3 GHz (13 cm)
Propulsion: 370 N (84 lb) Rocketdyne RS-40 hydrazine engines with a total delta-v of 115 m/s (377 ft/s)
Payload:
- Imaging Science Subsystem (ISS): two cameras with a combined 800 mm focal length
- Ultraviolet Spectrometer (UVS)
- Infrared Interferometer Spectrometer (IRIS)
- Plasma Science Experiment (PLS)
- Radio Science System (RSS)
- Magnetometer
Trajectory: Launched on August 20, 1977, Voyager 2 is the first spacecraft to leave the heliosphere and enter interstellar space.

Voyager 2’s Exploration of the Outer Planets

Voyager 2’s historic journey through the outer solar system provided groundbreaking insights into the planets Jupiter, Saturn, Uranus, and Neptune.

Jupiter (1979): Voyager 2 revealed the planet’s turbulent atmosphere, including the Great Red Spot, and discovered active volcanoes on Jupiter’s moon Io.
Saturn (1981): The spacecraft captured stunning images of Saturn’s iconic rings, revealing their intricate structure and the presence of new ringlets. It also discovered a previously unknown moon, Prometheus.
Uranus (1986): Voyager 2 became the first and only spacecraft to visit Uranus. It observed the planet’s faint ring system and discovered 10 new moons.
Neptune (1989): Voyager 2’s encounter with Neptune marked the farthest human-made object had traveled from Earth. It discovered the planet’s Great Dark Spot, its powerful winds, and its magnetic field.

Voyager 2’s Encounter with Uranus

In 1986, Voyager 2 became the first and only spacecraft to encounter the ice giant planet Uranus. As it approached the planet, Voyager 2 discovered a complex and dynamic system replete with 10 new moons, 11 new rings, and a surprisingly asymmetric magnetic field.

Voyager 2’s images revealed Uranus’s distinctive blue-green hue, attributed to the absorption of red light by methane in its atmosphere. It also detected a faint ring system that extended for thousands of kilometers beyond the planet. The most notable rings were the epsilon ring, a narrow, bright ring located just inside the main ring, and the eta ring, an extremely faint outermost ring.

The magnetic field of Uranus was found to be tilted 60 degrees from the spin axis of the planet, unlike any other known planet in the solar system. This unique orientation influenced the shape of the magnetosphere and resulted in a strong magnetic tail that stretched millions of kilometers into space. Voyager 2 also discovered a large population of charged particles trapped within the magnetic field, forming a distinct radiation belt around the planet.

Voyager 2’s Encounter with Neptune

In August 1989, Voyager 2 became the first and only spacecraft to visit the planet Neptune. During its closest approach, the probe captured stunning images of the planet’s swirling atmosphere, icy moons, and magnetic field. Voyager 2 discovered six new moons, including Proteus and Nereid, and observed active geysers erupting from the surface of Triton, Neptune’s largest moon. The spacecraft also provided valuable data on the planet’s magnetic field, which was found to be tilted by 47 degrees from the planet’s axis of rotation. Voyager 2’s encounter with Neptune provided scientists with unprecedented insights into the outer solar system and paved the way for future missions to explore the distant reaches of space.

Voyager 2’s Current Location and Status

As of August 2023, Voyager 2 is approximately 118 astronomical units (AU) from Earth and traveling at a speed of around 15.5 kilometers per second (9.6 miles per second). It is currently located in the heliosheath, the outermost region of the Sun’s influence.

Voyager 2 remains operational and continues to send back valuable data to Earth. Its instruments are still functioning, and it is expected to continue operating until at least 2025. The probe has been providing invaluable insights into the nature of the heliosphere and the interstellar medium.

Voyager 2’s Future Plans

Voyager 2, launched in 1977, is expected to continue operating indefinitely. It is powered by a radioisotope thermoelectric generator (RTG) that slowly decays, providing it with electricity. As the RTG weakens, the spacecraft will gradually lose its ability to power its instruments and communications systems.

Currently, Voyager 2 is in the heliosheath, the outermost region of the solar wind. It is expected to enter interstellar space in the mid-2020s. Once in interstellar space, Voyager 2 will continue to collect data on the properties of the interstellar medium, including the density, temperature, and composition of the gas and dust. It will also search for evidence of the heliopause, the boundary between the solar wind and the interstellar medium.

Voyager 2 is expected to continue operating for several more decades, providing valuable data on the heliosheath and interstellar space. It is a testament to the durability of human engineering and the enduring legacy of space exploration.