100,000,000,000,000,000,000,000,000,000,000,000 million years
The truth:It is unlikely that a Saturn five could create enough velocity to get out of the solar system.If the payload had a Ion thruster in it and allowing that thruster could archive 1/4 light speed and the payload didn't have to stop when it got there:
more than 2572 years.
One of the stars in the constellation Orion that is as large as the orbit of Saturn is Betelgeuse. It is a red supergiant star, nearing the end of its life, located in the shoulder of the Orion constellation. Betelgeuse is one of the largest stars known and its diameter is estimated to be around 1,000 times that of the Sun, extending out to about the orbit of Saturn.
A Saturn V rocket at liftoff could reach levels of around 220 decibels at close range, which is louder than a gunshot or a jet engine. The noise could be heard from several miles away and would often cause windows to rattle nearby.
The cost to develop and build the Saturn V rocket in the 1960s was approximately $6.4 billion. Adjusted for inflation, this would be around $47 billion in today's dollars.
It would take around 6.5 years to travel from Earth to Saturn using current spacecraft technology. The exact time can vary depending on the specific trajectory chosen for the mission.
Saturn VThe Saturn V was created expressly for the space program. Earlier rockets were adapted to fit the needs of exploration (eg. the Mercury-Redstone combinations), but the power needed to push a craft into orbit required a completely new design. The Saturn V contains 5 rocket engines, each of which had a diameter of 33 feet (if I recall Apollo 13 correctly). So at it's widest point, the rocket would have to be over 100 feet in diameter, creating 7.5 million pounds of thrust--enough to put the spacecraft into orbit along with the next set of engines which would push it off to the moon.If you mean rockets used in wars, then the rocket that would have been a precursor to the Saturn 5 would be the Nazi Vengence rockets, specifically the V2 and the not widely used V3 which I don't think actually got used before they were rendered useless due to the war ending. The V2 had the capability of reaching near space, well out of reach of fighter planes of the time which had the job of trying to shoot them down before they got too high.
on a rocket and blast of in 5,4,3,2,1 or five secends
sending it in a rocket ship how else
—the Saturn v had two stages both parts would burn its engines until the fuel ran out then it would come off the rocket
One of the stars in the constellation Orion that is as large as the orbit of Saturn is Betelgeuse. It is a red supergiant star, nearing the end of its life, located in the shoulder of the Orion constellation. Betelgeuse is one of the largest stars known and its diameter is estimated to be around 1,000 times that of the Sun, extending out to about the orbit of Saturn.
A Saturn V rocket at liftoff could reach levels of around 220 decibels at close range, which is louder than a gunshot or a jet engine. The noise could be heard from several miles away and would often cause windows to rattle nearby.
if they were on a rocket ship or a space craft and they would have to have a oxygen bag so you can breayhe
The cost to develop and build the Saturn V rocket in the 1960s was approximately $6.4 billion. Adjusted for inflation, this would be around $47 billion in today's dollars.
9 days
The rocket would be carrying extra dead weight and likely would not have enough fuel to reach its destination.
450 years.
To get to Saturn, you would need to launch a spacecraft from Earth using a powerful rocket. The journey to Saturn would take several years, depending on the speed and trajectory of the spacecraft. Once you arrive at Saturn, you could study the planet and its moons using instruments and cameras on the spacecraft.
The Saturn 5 booster did most of the work.