At that speed, it would take3720 hours, which is just 155 days !
If one was to fly directly to Saturn (not a more realistic orbital path) the distance ranges from 743 million miles to a bit more than 1 billion miles, depending on where earth and Saturn are in their respective elliptical orbits. Using the average distance of about 875 million miles and dividing by 25,000 miles per hour we get 35,000 hours, which is 1458 days, which is about 3.99 years. Although this trajectory and speed are not realistic, the Voyager 2 spacecraft took almost exactly 4 years to reach Saturn in 1977 - 1981.
Really? ... 8 MILES PER HOUR! The would travel EIGHT MILES IN AN HOUR!
approx. 805,000 years
The mean distance from the Sun to Neptune is 4550,000000 km The mean distance from the Sun to Earth is 150,000000 million km This means the mean distance from Earth to Neptune is 4400,000000 km Convert to miles: divide by 1.609 to get 2734,617700 miles Divide by 25000 miles per hour and you get 109384.7 hours or just under 12.5 years. ■
$12.02 per hour.
The average distance from the earth to the moon is approx 250000 miles. If you could travel to the moon at 25000 in a staright line, it would take 10 hours.
The approximate distance between Earth and Uranus is 1.6 billion miles.At the rate of 25000 miles per hour speed it would take 64000 hours .
416 years 4.8 months at 100 miles per hour.
The average distance from Earth to Venus is 93,205,678.8 miles. It would take 93,205.7 hours or about 10.6 years to get there at 1,000 miles per hour.
If one was to fly directly to Saturn (not a more realistic orbital path) the distance ranges from 743 million miles to a bit more than 1 billion miles, depending on where earth and Saturn are in their respective elliptical orbits. Using the average distance of about 875 million miles and dividing by 25,000 miles per hour we get 35,000 hours, which is 1458 days, which is about 3.99 years. Although this trajectory and speed are not realistic, the Voyager 2 spacecraft took almost exactly 4 years to reach Saturn in 1977 - 1981.
Divide the distance by the speed. If the distance is in miles, and the speed in miles/hour, the answer will be in hours. You may want to convert this to days, or to years, in this case.
257.99 years (rounded)
Really? ... 8 MILES PER HOUR! The would travel EIGHT MILES IN AN HOUR!
It would take about 120 years
Asumming your "moonwalking" at 2.0 miles an hour. You would get there in: 2.385 Billion years.
approx. 805,000 years
About 7 years at 1,500 mph