It depends on the size of the vessel and the kind of propulsion used... so I can't really give an answer. On a side note 90-95% of a spacecraft's fuel is used to break earth's gravity, once in space it takes very little fuel to move a large distance.
A satellite couldn't go to Jupiter since satellites are objects,natural or manmade, that are in orbit around other celestial objects such as planets and stars. If you mean how much fuel would a spacecraft/spaceship need to go to Jupiter, that would depend on the mass of the spacecraft and the acceleration. For example, if you pushed your spaceship to fifty thousand miles per hour, it would continue at that speed without any more fuel being used because space is a nearly total vacuum and offers almost no resistance to an object passing through it. If you wanted to keep speeding up on the way, it would take a lot of fuel.
Typically around 7 years. It can vary by a large amount depending on how large the payload is, how much fuel is used, whether or not the rocket will enter orbit around Jupiter or just fly by, etc.
It would take about 9 years to travel from Earth to Jupiter, assuming a similar speed and trajectory as the trip from Earth to Mars. Jupiter is much farther away from Earth than Mars, so the journey would be significantly longer.
It takes the longest because it is the furthest away from Jupiter.
It would take about 100 minutes for a spacecraft traveling at the speed of light (186,282 miles per second) to travel from Jupiter to Callisto, which is one of Jupiter's moons. However, current spacecraft travel at much slower speeds due to technical limitations, so it would take longer to cover the distance.
It takes 10,394 gallons of fuel.
It takes Jupiter 11.86 Earth years to orbit the Sun.
Jupiter orbits the sun in about 4332 days, which is about 11 years and 11 months.
As much as I'm tempted, I'm afraid I can't take credit for those accomplishments. They were both the work of Galileo Galilei.
From what perspective? From Earth, you will never see Jupiter go across the Sun, as the Earth is much closer to the Sun than Jupiter.
11.86 earth years.
In terms of volume, 1320 Earths.
None of those. It would take 118.55 Earths to stretch across Jupiter, assuming you're talking about the surface of the Earth stretching across the surface of Jupiter. Take the surface area of both planets and divide them. (Jupiter / Earth) 23.71 billion / 200 million = 118.55 If you meant how many Earths could fit inside Jupiter then the answer would be 1,321.3. Hopefully that helps.
It depends on the type of aircraft
11.9 Earth years
11.86 earth years.
alot of fuel.. U