Jupiter has an average distance from the sun of 778.5 million km. That is not the distance from the earth. Sometimes it is less and sometimes it is greater, it moves. There is not a straight line distance it varies.
Walking you cover an average of about 4 kilometres an hour. Divide that into the average distance. By the way, what are you going to walk on, breathe and eat.
Jupiter's orbital period is 4330.6 Earth days (approx. 24 hrs/day). However a Jupiter day is only about 10 hours so the period in Jupiters days would be 2.4 times as great.
well it would take approximately 49 earth days
That depends on the speed of your spacecraft. The space probes that we've sent there generally take a couple of years to make the trip, but better engines could shorten it to months - or weeks! If you had an engine that could accelerate at one gravity the whole way, the trip would take only a few days, depending on where Jupiter and Earth were in their orbits.
Divide the distance by the speed.
the revolution period of Jupiter is 4331 days.
Europa orbits Jupiter every 3.5 earth days
At the level in the atmosphere where the pressure is one (1) bar, Jupiter has an equatorial circumference of about 44384 miles. A standard walking pace for someone energetically walking distance is 4 miles per hour.At that rate, if there were a surface to walk on, and there is not one at that level, it would take a person 11096 hours or 924 Earth days (walking 12 hours per day) or a bit more than 2.5 years to walk around Jupiter, assuming you never took a day to rest or be ill.
You'd run out of fuel on the first day!
As earth revolves around the sun at a much faster speed than Jupiter does, the distance is changing a lot from year to year, even every minute. If say starting from the sun, even at the speed of light, it would take approx 43 minutes to get to Jupiter. If the rocket managed an approximate of 1/100 of the speed of light, then the trip would take roughly 3 days or approx 72 hours. With this speed, from earth, when earth is aligned with Jupiter on the right side of the sun, the trip would roughly be done in 63 hours. (Approx 2 days and 15 hours). Rockets today can not achieve this speed, but who knows what future holds for us.
Depends really on what speed you are going. Jupiter is approximately 780 million km from the Sun. So at 1,000 kph it will take about 32,500 days
The orbital revolution period for Jupiter (a Jovian year) is equal to about 4335.6 Earth days or about 11.86 Earth years. A "day" on Jupiter is about 10 hours, so this would be about 10,475.8 Jovian days.
Yes, but you would need to know the velocity of the object travelling there and also the distance between the earth and Europa at the point of time you left, while calculating the orbital distance difference of Jupiter and Europa whilst travelling. A rough estimate (ignoring those variables) would be the distance from the sun to Jupiter is 5.2au (with the distance of Europa from Jupiter being 0.004au, so we'll ignore it), so the distance from Earth to Europa is 4.2au at minimum distance. (1au = ~150,000,000km) Because the speed is unknown at present, we'll say the speed the object (space shuttle) is travelling at is 30,000kph, that would make the time 875 days to travel there at constant speed. Walking there would take 14,383 years.
38,788.475 miles/hour, or 62, 424 km/hr. Io circles Jupiter every 1.76 days
The Jupiter orbital period in Earth years is 11.85920. In days that would be 4,331.572. That would be at the orbital speed of 13.07 kilometers per second. it takes Jupiter 12 earth years to orbit around the sun
10,475.8 Jupiter days are in a Jupiter year.
Jupiter's orbital period is 4330.6 Earth days (approx. 24 hrs/day). However a Jupiter day is only about 10 hours so the period in Jupiters days would be 2.4 times as great.
well it would take approximately 49 earth days