How does the Voyager 1 probe work?
- How does the Voyager 1 probe work?
- Where are the Voyager 1 and 2 probes?
- What journey has the Voyager 1 probe made since leaving planet Earth?
- How does the Voyager spacecraft communicate?
- Where are the space probes?
- What was the first probe to leave the solar system?
- Where is the Voyager probe located?
- What is the model of Voyager 1?
- What is the meaning of Voyager 1?
- What is Voyager 1?
- What is the Voyager 1 probe?
The Voyager 1 probe is stabilized on its three axes, which reflects the priority given to remote sensing instruments, ie the study of planets and moons. The direction of the probe is controlled using two sensors: a star tracker and a solar sensor installed on the parabolic antenna.
Travel 1 is currently more than 22 billion kilometers from our Sun. Voyager 2 is only 18,2 billion. But it still takes about 16.5 hours for the light to make the trip to us. For comparison, it only takes 8 minutes to cover the Earth-Sun distance.
Travel 1 crossed the heliosphere in 2012 and is now traveling at some 61,000 km/h in the interstellar medium. In 40,000 years, it will pass close to a small star in the constellation Giraffe. In 225 million years it will have closed his first tour of the Galaxy.
The three parabolic antennas responsible for communicating with the probes spatial To travel are now all equipped with a large parabolic antenna (64 to 70 meters) to collect the increasingly weak radio signal.
The Agency spatial European (Mars Express, Venus Express, Rosetta, participation in the probe Cassini-Huygens) and Japan (Hayabusa, SELENE) also occupy a growing place. Finally, China and India have also achieved since the end of the 2000s space probes.
Launched by NASA in 1977, the probe Voyager-1a left the solar system. It is now 21 billion kilometers from Earth and travels nearly 1.6 million kilometers per day. Simply HIS-TO-RI-QUE!
“We are investigating a mystery with To travel 1,” NASA said on Twitter. The probewho is located currently 23.3 billion kilometers from us, has not stopped sending scientific data to our planet.
Model of Voyager 1. Voyager 1 is one of the twin space probes of NASA’s Voyager space program intended for the study of the outer planets of the Solar System which had until then only been observed by means of telescopes located on Earth, notably the systems of Jupiter and Saturn.
Like Voyager 2, Voyager 1, which is to approach a neighboring planetary system in about 42,000 years, symbolically carries a record of different manifestations of humanity. The launch of Voyager 1 by a Titan 3E rocket.
Voyager 1 has sixteen small redundant hydrazine-burning thrusters used both for course alterations and for orientation changes or corrections. The amount of propellant on board allows a very modest cumulative speed change of 190 meters per second over the entire mission.
The Voyager 1 probe is stabilized on its three axes, which reflects the priority given to remote sensing instruments, ie the study of planets and moons. The orientation of the probe is controlled using two sensors: a star tracker and a solar sensor installed on the parabolic antenna.