How fast is Voyager 1 and 2?
Table of Contents
- 1 How fast is Voyager 1 and 2?
- 2 What is the speed of Voyager 1?
- 3 How fast in mph is the Voyager spacecraft traveling right now?
- 4 What is the speed of Voyager 2?
- 5 How far out is Voyager 2?
- 6 How long will Voyager 2 battery last?
- 7 How does Voyager 2 travel so fast?
- 8 What is the speed of Voyager 1 and Voyager 2?
- 9 What is the history of the Voyager 1 space probe?
- 10 What are 5 interesting facts about Voyager?
How fast is Voyager 1 and 2?
Voyager 1 is traveling faster, at a speed of about 17 kilometers per second (38,000 mph), compared to Voyager 2’s velocity of 15 kilometers per second (35,000 mph).
What is the speed of Voyager 1?
38,210 mph
Voyager 1/Max speed
How fast is Voyager 1 traveling compared to the speed of light?
On this scale, the distance to Alpha Centauri A would be 276 kilometers (171 miles). The fastest outward-bound spacecraft yet sent, Voyager 1, has covered 1/600 of a light-year in 30 years and is currently moving at 1/18,000 the speed of light. At this rate, a journey to Proxima Centauri would take 80,000 years.
How fast in mph is the Voyager spacecraft traveling right now?
Both spacecraft are traveling at more than 30,000 mph (48,000 km/h).
What is the speed of Voyager 2?
Voyager 1 is traveling faster, at a speed of about 17 kilometers per second (38,000 mph), compared to Voyager 2’s velocity of 15 kilometers per second (35,000 mph). In the next few years, scientists expect Voyager 2 to encounter the same kind of phenomenon as Voyager 1.
How fast is Voyager 2 in space?
Traveling at speeds of over 35,000 miles per hour, it will take the Voyagers nearly 40,000 years, and they will have traveled a distance of about two light years to reach this rather indistinct boundary.
How far out is Voyager 2?
The spacecraft is now in its extended mission of studying interstellar space. It has been operating for 44 years, 3 months and 12 days as of November 28 2021, reaching a distance of 129.3 AU (19.343 billion km; 12.019 billion mi) from Earth.
How long will Voyager 2 battery last?
Voyager 2 still has five functioning instruments for measuring the void; Voyager 1 has four. Both Voyagers are expected to last another five years or so until their batteries die out. Both are powered by electricity generated by the heat of radioactive plutonium.
What speed is Voyager 2 traveling at?
about 15.4 km/s
Today, Voyager 2 is traveling at about 15.4 km/s and Voyager 1 is traveling at about 17 km/s. Here’s a diagram showing the velocity change of Voyager 2, since launch. Imagine the Voyager one as similar, but without the Uranus and Neptune diversions.
How does Voyager 2 travel so fast?
Each Voyager used the enormous gravity field of Jupiter to be hurled on to Saturn, experiencing a Sun-relative speed increase of roughly 35,700 mph. As total energy within the solar system must be conserved, Jupiter was initially slowed in its solar orbit—but by only one foot per trillion years.
What is the speed of Voyager 1 and Voyager 2?
Voyager 1 is escaping the solar system at a speed of about 3.6 AU per year. Voyager 2 is escaping the solar system at a speed of about 3.3 AU per year.
How does Voyager 1’s distance from the Sun change?
Note: Because Earth moves around the sun faster than Voyager 1 is speeding away from the inner solar system, the distance between Earth and the spacecraft actually decreases at certain times of year. This is a real-time indicator of Voyagers’ straight-line distance from the sun in astronomical units (AU) and either miles (mi) or kilometers (km).
What is the history of the Voyager 1 space probe?
Voyager 1 is a space probe launched by NASA on September 5, 1977. Part of the Voyager program to study the outer Solar System, Voyager 1 launched 16 days after its twin, Voyager 2.
What are 5 interesting facts about Voyager?
Fast Facts. 1 Launch. Voyager 2 launched on August 20, 1977, from Cape Canaveral, Florida aboard a Titan-Centaur rocket. On September 5, Voyager 1 launched, also 2 Planetary Tour. 3 Most Distant Spacecraft. 4 The Golden Record. 5 Present Status.