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A rather exciting one, by all accounts! Cassini hurtled round venus twice at various distances to take on speed, used the Earth's gravitational field as a further 'springboard' and finally zipped off past Jupiter. It attained the speed necessary to reach Saturn using the 'slingshot' effect.

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What object keeps Saturn in orbit?

Saturn is kept in orbit by the gravitational pull of the Sun. This force acts as a centripetal force, keeping Saturn in its elliptical path around the Sun.


How many years does it take to go to Saturn?

Completely relative to the speed at which you travel. Saturn is roughly an average of 1.3 billion kilometers from Earth. Since Distance divided by Speed equals Time, You can figure it out with math simply by inputting the speed at which you wish to travel to get the time it will take.Actually, it's much more complicated than simply saying "X distance / Y speed". Travel in space is not done in a straight line when attempting to go between orbiting objects. Since both Saturn and the Earth are traveling in (nearly) circular orbits, you don't use a sight line. A similar problem here on earth is the concept of a Great Circle route, where the shortest distance between two points on a sphere is NOT a direct straight line.When calculating the shortest path to Saturn, there are generally two paths of interest: the minimum energy path (i.e. one which requires the least amount of thrust), and the minimum time path. Naturally, both are influenced by the limits of how big we want to build the spacecraft, and how much other design criteria impact the desired speed (e.g. the longer in space, the larger amounts of consumables that a manned craft requires). And, most importantly, the exact position of Earth and Saturn in their orbits.A German scientist named Walter Hohmann published (in 1925) a mathematical solution to the problem of moving an object between two concentric circular orbits. His solution (now called Hohmann Transfers) are one of the basics of Orbital Mechanics.Since Saturn and Earth can be considered to be traveling in concentric circle orbits, and Saturn has about 1/3rd the orbital velocity of the Earth (that is, the speed Saturn travels around its orbit is about 1/3 that of the Earth), there are two general paths to travel between the two planets:Launch from Earth and jet "backwards" along the Earth's orbit - that is, travel in the opposite direction of the Earth's orbit, so that your orbital velocity (relative to the Sun, not the Earth) is slower than that of the Earth, but generally faster than that of Saturn. This method is most useful when the Earth has just "passed" SaturnLaunch from Earth and jet "forwards", so that your orbital velocity is greater than that of the Earth. This method is most useful when the Earth is "catching up" to Saturn.In both cases, rather than travel a straight line (as if observed from above the plane of the planet's orbit), the spacecraft follows an arc. Technically, the flight path is one-half of an ellipse, with perihelion at earth at the time of launch, and aphelion at Saturn at the time of landing. The minimum time path generally follows the counter-orbit route, while the minimum time path tends to be the opposite direction.Using either strategy, there are various exact paths which can be chosen, which have different acceleration and total thrust requirements, which lead to different total flight lengths. The time and energy required by a given path are also critically linked to the position of the Earth and Saturn. That is, the specifics of the path (in terms of time and energy required) vary constantly as the position of the planets change.Thus, there is not real one answer to your question. It's not like "how long does it take to fly from London to New York", which is relatively invariant for modern jet aircraft.Using launch times over the next few decades, reasonable minimum time paths for a human-occupied spacecraft (using technology currently available) would be in the 2-3 year range for a path to Saturn.


What is the path around the earth?

mercery venus earth mars jupiture saturn neptune pluto


What is the curved path In which a planet satellites or spacecraft revolves around another body?

The curved path in which a planet, satellite, or spacecraft revolves around another body is called an orbit. Orbits can be circular or elliptical in shape, depending on the gravitational forces at play and the relative velocities of the objects involved. The gravitational attraction between the two bodies keeps the orbiting object in its path, balancing the inertia of its motion.


How long will it take to get to Saturn from Earth in days?

At their closest orbital point, Earth and Saturn are about 9 AU apart (1.35 billion kilometres)The fastest manned spacecraft we have made so fare were the Apollo spacecraft which went to the moon; they averaged about 40,000 km/h. It took them 3 days.At that speed it would take an astronaut about 3 years and 10 months to travel that distance. This assumes they could travel in a straight line, however since the two planets are moving the path would actually be considerably longer.

Related Questions

How long to travel to Saturn?

How long it takes to travel to Saturn depends on:where you start fromhow your starting point is moving in relation to Saturnhow fast you can acceleratehow long you can acceleratewhat orbital path you choose to followwhether you want to just get to Saturn and crash into it or you want to take up an orbit around itFour spacecraft have been to Saturn. Pioneer 11 took just over 6 yearsVoyager 1 took just over 3 yearsVoyager 2 took 4 yearsCassini Huygens took just under 7 yearsIt has to be remembered that flying a spacecraft straight to Saturn would take a lot longer. To decrease the flight time a gravitational assist path is used. This involves flying the spacecraft to a nearer planet and using the gravitational field of that planet to accelerate the space craft. Cassini Huygens flew by Venus, Earth, Venus again and Jupiter.Cassini Huygens is the only spacecraft to remain in orbit around Saturn. The other spacecraft were fly-by missions.well it depends but i assume that it would take 3 years approximately at 17mph. it takes 6, 7 or mabye even 8 both ways.The time to travel to Saturn would depend on the speed you attained and the path you had to follow. Seldom are the Earth and Saturn arranged to allow a straight flight outward from Earth's orbit to Saturn's orbit.With current rocket technology, it would take at least a year going one-way. Space probes usually take longer, but save fuel by using paths that allow them to get an assist from planetary gravity. This involves flying the spacecraft to a nearer planet and using the gravitational field of that planet to accelerate the spacecraft. This time would have to be shortened considerably to make manned missions feasible.Four spacecraft have been to Saturn.Pioneer 11 took just over 6 yearsVoyager 1 took just over 3 yearsVoyager 2 took 4 yearsCassini Huygens took just under 7 yearsCassini Huygens flew by Venus, Earth, Venus again and Jupiter. Cassini Huygens is the only spacecraft to remain in orbit around Saturn. The other spacecraft were fly-by missions.Just like any other trip, the time it takes depends on your speed and theroute you take. But we have some experience with that particular trip. The Cassini-Huygens space probe was designed especially to explore Satuirn and its moons. After 20 years of planning, it was launched on October 15, 1997, and it arrived and entered orbit around Saturn on July 1, 2004 ... a total of about 6.75 years.It depends on the spacecraft, how fast you are travelling, whether or not you were taking a direct path, and the relative locations of Earth and Saturn to one another as they orbit the sun.Let's assume that you are traveling in a straight line to Saturn, and that Saturn and Earth are perfectly lined up while you make your journey (which is a distance of 1195.5x106km). It would therefore take you:-- 1 hour, 6 minutes, and 25 seconds if you were travelling the speed of light.-- 110 years, 163 days, 23 hours, 51 minutes, and 22 seconds if you were travelling the speed of sound.-- 3 years, 152 days, 19 hours, and 58 minutes if you were travelling the same speed as Apollo 10 (39,896 km/h).It is not possible for a spacecraft to fly straight to Saturn. There are two main reasons. One, rockets cannot carry enough fuel to fly straight to Saturn in a reasonable time. Two, the laws of gravitation (orbital dynamics) mean an orbital (curved) path has to be followed. To gain speed, current spacecraft use a technique known as gravitational assist, by flying towards nearer planets and using the planet's gravitational pull to accelerate them.It takes around 7 years to get to Saturn from earth.


What object keeps Saturn in orbit?

Saturn is kept in orbit by the gravitational pull of the Sun. This force acts as a centripetal force, keeping Saturn in its elliptical path around the Sun.


How many years does it take to go to Saturn?

Completely relative to the speed at which you travel. Saturn is roughly an average of 1.3 billion kilometers from Earth. Since Distance divided by Speed equals Time, You can figure it out with math simply by inputting the speed at which you wish to travel to get the time it will take.Actually, it's much more complicated than simply saying "X distance / Y speed". Travel in space is not done in a straight line when attempting to go between orbiting objects. Since both Saturn and the Earth are traveling in (nearly) circular orbits, you don't use a sight line. A similar problem here on earth is the concept of a Great Circle route, where the shortest distance between two points on a sphere is NOT a direct straight line.When calculating the shortest path to Saturn, there are generally two paths of interest: the minimum energy path (i.e. one which requires the least amount of thrust), and the minimum time path. Naturally, both are influenced by the limits of how big we want to build the spacecraft, and how much other design criteria impact the desired speed (e.g. the longer in space, the larger amounts of consumables that a manned craft requires). And, most importantly, the exact position of Earth and Saturn in their orbits.A German scientist named Walter Hohmann published (in 1925) a mathematical solution to the problem of moving an object between two concentric circular orbits. His solution (now called Hohmann Transfers) are one of the basics of Orbital Mechanics.Since Saturn and Earth can be considered to be traveling in concentric circle orbits, and Saturn has about 1/3rd the orbital velocity of the Earth (that is, the speed Saturn travels around its orbit is about 1/3 that of the Earth), there are two general paths to travel between the two planets:Launch from Earth and jet "backwards" along the Earth's orbit - that is, travel in the opposite direction of the Earth's orbit, so that your orbital velocity (relative to the Sun, not the Earth) is slower than that of the Earth, but generally faster than that of Saturn. This method is most useful when the Earth has just "passed" SaturnLaunch from Earth and jet "forwards", so that your orbital velocity is greater than that of the Earth. This method is most useful when the Earth is "catching up" to Saturn.In both cases, rather than travel a straight line (as if observed from above the plane of the planet's orbit), the spacecraft follows an arc. Technically, the flight path is one-half of an ellipse, with perihelion at earth at the time of launch, and aphelion at Saturn at the time of landing. The minimum time path generally follows the counter-orbit route, while the minimum time path tends to be the opposite direction.Using either strategy, there are various exact paths which can be chosen, which have different acceleration and total thrust requirements, which lead to different total flight lengths. The time and energy required by a given path are also critically linked to the position of the Earth and Saturn. That is, the specifics of the path (in terms of time and energy required) vary constantly as the position of the planets change.Thus, there is not real one answer to your question. It's not like "how long does it take to fly from London to New York", which is relatively invariant for modern jet aircraft.Using launch times over the next few decades, reasonable minimum time paths for a human-occupied spacecraft (using technology currently available) would be in the 2-3 year range for a path to Saturn.


How long does it take to get to the moon now?

It still takes the same amount of time if the spacecraft follows an orbital path.


What kind of path does the earth follow on it's orbit?

It is elliptical path.


What is the path around the earth?

mercery venus earth mars jupiture saturn neptune pluto


How much velocity is required to reach Saturn?

Once you break free of the Earth's gravity, any velocity greater than zero will eventually reach Saturn, assuming the path is correct to collide with Saturn and no outside variables interfere.


What is the earth's path around the sun?

mercery venus earth mars jupiture saturn neptune pluto


What is the earth's path around the sun is?

mercery venus earth mars jupiture saturn neptune pluto


Is path a common noun?

Yes, the noun 'path' is a common noun, a general word for any path of any kind.


How many years would it take to reach the planet Saturn traveling at 25000 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.


What is the distance of the path Saturn takes around the sun?

Saturn is at a distance of about 9.5 AU from the Sun.Saturn is at a distance of about 9.5 AU from the Sun.Saturn is at a distance of about 9.5 AU from the Sun.Saturn is at a distance of about 9.5 AU from the Sun.