Difference between revisions of "Tutorial:How to get to Jool"

From Kerbal Space Program Wiki
Jump to: navigation, search
(- Section of the page is explained more clearly.)
m (fixing my terrible formatting)
 
(42 intermediate revisions by 7 users not shown)
Line 1: Line 1:
 
[[File:Jool.jpg|thumb|225px|right|Jool.  If you don't see this at some point during the tutorial, you've probably done it incorrectly.]]
 
[[File:Jool.jpg|thumb|225px|right|Jool.  If you don't see this at some point during the tutorial, you've probably done it incorrectly.]]
  
== Traveling to Jool ==
+
==Introduction==
[[Jool]] is the second most distant body in the Kerbol system, and one of the more time-consuming locations to reach.  Getting to Jool is really the next step after [[Eve]] and [[Duna]], and is an attractive target due to its large atmosphere and complex moon system.
+
[[Jool]] is the second most distant body in the Kerbol system, and one of the more time-consuming locations to reach.  Getting to Jool is really the next step after [[Eve]], [[Duna]], and [[Dres]], and is an attractive target due to its large atmosphere and complex moon system.
  
 
===Specifications===
 
===Specifications===
 
*'''Length:''' 1–3 hours
 
*'''Length:''' 1–3 hours
*'''Difficulty:''' Hard
+
*'''Difficulty:''' Moderate/Hard
*'''For version:''' .17
+
*'''For version:''' 1.0 to 1.12
  
Additionally, you will need a good understanding of orbital mechanics (see [[Tutorials]] section), angles, and a lot of patience.
+
Additionally, you will need a good understanding of orbital mechanics (see [[Tutorials]] section), angles, possibly [[aerobraking]] and a lot of patience.
  
==Steps==
+
==Getting To Jool==
  
 
===Step 1 - Build Your Rocket===
 
===Step 1 - Build Your Rocket===
This rocket should be fully capable to reach Jool. To build this rocket, you will need at least 8,300 [[Delta-V]]. To save some [[Delta-V]] in your rocket, you could [[aerobrake]] around Jool or Lathe. Ideally, in [[Career]] mode, you should have  a fully upgraded level 6 [[Technology tree]] to build this rocket. You could probably get away with a level 5 [[Technology tree]] but you will probably need to add more stages or more power to the bottom stage to make this design work.
+
This rocket should be fully capable to reach Jool. To build this rocket, you will need at least 8,300 [[Delta-V]]. To save some [[Delta-V]] in your rocket, you could [[aerobrake]] around Jool or Laythe. Ideally, in [[Career]] mode, you should have  a fully upgraded level 6 [[Technology tree]] to build this rocket. You could probably get away with a level 5 [[Technology tree]] but you will probably need to add more stages or more power to the bottom stage to make this design work.
 
==== Upper Stage ====
 
==== Upper Stage ====
This stage should have enough fuel to get into Jool orbit and to travel around Jool's 5 moons. You can reduce the required fuel by [[aerobraking]] inside Jool's atmosphere. At a bare minimum, use a Rocketmax Jumbo-64 Fuel Tank and ether a RE-L10 "Poodle" Liquid Fuel Engine or a LV-N "Nerv" Atomic Rocket Motor on the end.  
+
This stage should have enough fuel to get into Jool orbit and to possibly travel around Jool's 5 moons. You can reduce the required fuel by [[aerobraking]] inside Jool's atmosphere, but it requires a heat shield on the top of the rocket. At a bare minimum, use a Rocketmax Jumbo-64 Fuel Tank (or multiple small tanks) and ether a RE-L10 "Poodle" Liquid Fuel Engine or a LV-N "Nerv" Atomic Rocket Motor on the end.
 +
 
 +
[[File:JoolRocket.jpg|400x200px|thumbnail|right|A rocket fully capable of reaching Jool and returning.]]
 +
Here is my design (in the image to the right): Start with a MK1-2 Command Pod and stick a [[Rockomax Brand Decoupler]] under that. Next, put a [[Service Bay (2.5m)]] with whatever you want inside it (Science, batteries, etc...). Ether put a [[Rockomax X200-8 Fuel Tank]] or a [[Rockomax X200-16 Fuel Tank]] under the service bay. On both sides of the fuel tank and the service bay, stick 2 [[Rockomax X200-32 Fuel Tank]] with fuel lines going into the smaller fuel tank. For engines, ether use [[RE-L10 "Poodle" Liquid Fuel Engine]] or a [[LV-N "Nerv" Atomic Rocket Motor]] and stick it to the bottom of the small fuel tank. If you are going to [[aerobrake]], stick a [[Heat Shield (10m)]] on top of the MK1-2 Command Pod. Remember to stick some parachutes, batteries and solar panels to power the reaction wheels.
 +
 
 
==== Middle Stage ====
 
==== Middle Stage ====
The middle stage should be able to escape Kerbin's SOI and get an encounter with Jool. A Rocketmax Jumbo-64 Fuel Tank will do for most small rockets but it depends on the size of your upper stage.  
+
The middle stage should be able to escape Kerbin's SOI and get an encounter with Jool. A Rockomax Jumbo-64 Fuel Tank will do for most small rockets but it depends on the size of your upper stage.
 +
 
 +
Put a [[Rockomax Brand Decoupler]] then a [[Rockomax X200-32 Fuel Tank]] under it. On ether side, put some [[Rockomax X200-16 Fuel Tank]] with fuel lines going into the big tank. Any medium engine will work just fine for this stage but I prefer to use a [[RE-I5 "Skipper" Liquid Fuel Engine]] instead. Put a pair of [[AV-R8 Winglet]] on each fuel tank.
 +
 
 
==== Lower Stage ====
 
==== Lower Stage ====
 
This is the launcher stage that will get the rocket into orbit. Make sure you use a lot of [[Solid rocket booster]] and powerful engines. The size of your lower stage greatly depends on the size and mass of the middle and upper stages.
 
This is the launcher stage that will get the rocket into orbit. Make sure you use a lot of [[Solid rocket booster]] and powerful engines. The size of your lower stage greatly depends on the size and mass of the middle and upper stages.
 +
 +
Put a [[Rockomax Brand Decoupler]] and then two [[Rockomax Jumbo-64 Fuel Tank]] under that. Put a [[RE-M3 "Mainsail" Liquid Engine]] under the fuel tanks and use four way symmetry to put the same build around the original fuel tanks (refer to the image above). Next, put some [[Hydraulic Detachment Manifold]] around the four fuel tanks (not the one in the middle). Use some [[LFB KR-1x2 "Twin-Boar" Liquid Fuel Engine]] in pairs of two on each [[Hydraulic Detachment Manifold]]. Use some [[AV-R8 Winglet]] and put them symmetrically on each booster. Put some [[TT18-A Launch Stability Enhancer]] on the boosters and make sure to use a lot of struts all over the ship.
 +
 +
====Staging====
 +
[[File:JoolRocketStage.jpg|400x200px|thumbnail|right|The staging for the Jool rocket.]]
 +
For staging of the ship, you can also refer to the image on the right.
 +
 +
The 8th stage fires the boosters and decouples the launch struts.
 +
 +
The 7th stage fires the decouplers attached to the boosters. (Optional: Add [[Sepratron I]])
 +
 +
The 6<sup>th</sup> stage fires the main engines to the rocket.
 +
 +
The 5<sup>th</sup> stage decouples the main fuel tanks and the main engine.
 +
 +
The 4<sup>th</sup> stage fires the 2<sup>nd</sup>engine (the one for the Interplanetary Transfer)
 +
 +
The 3<sup>rd</sup> stage decouples the middle stage.
 +
 +
The 2<sup>nd</sup> stage fires the smallest engine (the one used in Jool orbit)
 +
 +
The 1<sup>st</sup> stage decouples the upper stage for Kerbin landing.
 +
 +
The last stage fires the number of parachutes you want to include.
  
 
===Step 2 - Planetary Alignment===
 
===Step 2 - Planetary Alignment===
The alignment for a very efficient transfer is jool is slightly ahead of kerbin. You should escape kerbin with the orbit direction of jool as it will save you much fuel and troubles later when you arrive
+
[[File:JoolAlignment.jpg|400x200px|thumbnail|right|Jool should be ~90 degrees ahead of Kerbin.]]
 +
While not absolutely essential, the easiest and fastest way to reach Jool from Kerbin is ensuring that they are properly aligned. Otherwise, you may spend a lot of time (possibly years) and fuel drifting until they happen to match up.
 +
To do so, check your map and make sure that Jool is in front of Kerbin in its orbit around Kerbol, and if you were to draw a line from Jool to Kerbol to Kerbin, it would form a ~90 degree angle.
 +
 
 +
Alternatively, you can visit [http://ksp.olex.biz/ The Interplanetary Guide and Calculator] to calculate your own path.
  
===Step 3 - Launch to Kerbin Orbit===
+
===Step 3 - Launching into Kerbin Orbit===
You should first launch your main ship into orbit and then dock different landing modules to it in orbit
+
Start with a normal launch from Kerbin by making a gravity turn at ~10km (or whatever you are familiar with). Get your apoapsis to ~70 to ~100km then make your orbital insertion. If you have extra fuel in your lower stage after your orbital insertion, make sure to save it for your interplanetary transfer.
  
 
===Step 4 - Fly from Kerbin to Jool===
 
===Step 4 - Fly from Kerbin to Jool===
Make a maneuver node that is prograde and when you get a jool encounter burn to complete the maneuver
+
[[File:JoolTransfer.jpg|400x200px|thumbnail|right|A successful transfer between Kerbin and Jool.]]
 +
Once you are in orbit, and Kerbin and Jool are aligned properly, select Jool as your target, it makes
 +
things a lot easier. Next, make a maneuver node about 45 degrees past sunset. Then, pull out your
 +
prograde vector until the dotted yellow line leaves the Kerbin system and crosses Jool's orbit. If you have done these steps correctly, you should see two white arrows near each other, one pointing up and one pointing down. If you do not see these arrows, you might have to tweak your orbit a bit. Play with the prograde and retrograde vectors a bit until you see the arrows. If you get the two white arrows close enough to each other, you will get an encounter with Jool. If you cannot get an encounter, try moving your maneuver node around a little bit. Once you complete the burn, you will be on a course to Jool!
  
 
===Step 5 - Arriving at Jool===
 
===Step 5 - Arriving at Jool===
When you arrive at jool you have 3 options:
+
[[File:19Aerobrake.jpg|400x200px|thumbnail|right|A small probe aerobraking in Jool's dense atmosphere.]]
1) aerobrake
+
When you get into Jool's SOI, you basically have three options for getting into orbit.
If possible I recommend using laythe and not jool due to jools thick atmosphere which is more prone to overheating your ship than laythe.
+
 
Put your periapsis at 15km and also I suggest using several Klaw-heat shield modules which have probe cores and RCS to dock to your engines temporarily to protect them from exploding.  
+
1- Play it safe and burn retrograde at periapsis, but risk running out of fuel
2)tylo Gravity assist
+
 
Read the gravity assist page for detailed instructions on a RETROGRADE a gravity assist.
+
2- [[Aerobrake]], save some fuel but risk burning up in Jool's atmosphere
3) burn fuel
+
 
The crude and fuel wasting method but is easier to perform. Just burn retrograde when you are at your jool periapsis.
+
3- Use a gravity assist off of either [[Laythe]] or [[Tylo]] to capture into Jool orbit
 +
 
 +
Option 1-
 +
When you arrive into Jool's SOI, make sure your periapsis is is above 200km. Simply point and burn retrograde at periapsis until you get into a stable orbit.
 +
 
 +
Option 2-
 +
A few days before you arrive in Jool's SOI, play with a maneuver node and get your periapsis under 200km, inside Jool's atmosphere. The height of the periapsis is totally up to you, but I recommend not to go under 160km. Once there, enter Jool's atmosphere pointing retrograde. Try to keep your ship as stable as possible and not flip around, or else you could burn up. Once you have exited the atmosphere, burn retrograde for a bit if you are not in a stable orbit.  
 +
 
 +
A safer alternative to option two is to [[aerobrake]] in the orbit of [[Laythe]], which is similar to Kerbin's atmosphere. Then just simply transfer to an orbit around Jool. This option does require more planning, and I will not be explaining how to do it.
 +
 
 +
Option 3-
 +
(Recommend to enable maximum orbital lines in settings)
 +
This option is the hardest to pull off. Due to the size of Laythe and Tylo, performing a close fly-by of either can capture you into a Jool orbit with marginal fuel burnt in the process. There are a few steps to achieve this.
 +
 
 +
1. Make a maneuver node anywhere before your Jool encounter, preferably around Duna's orbit.
 +
 
 +
2. Using the node, align your path along Jool's equator i.e use the normal nodes to move it up/down until it is least inclined to the orbit of the inner 3 moons. Make sure the trajectory is anticlockwise around Jool unless you want to orbit the opposie direction of all its moons.
 +
 
 +
3. Pull on the normal and prograde/retrograde nodes until your node encounters Laythe or Tylo.
 +
 
 +
4. Repeat step 3 for your chosen moon. Observe your trajectory while you edit the node, and keep editing it until you are predicted to
 +
capture into Jool orbit. Keep your periapsis above 50km for Laythe and 10km for Tylo - below these margins is not safe for interplanetary vessels.
 +
 
 +
5. Execute the burn.
 +
 
 +
6. Sit back and watch. Be careful however - the orbit resulting from this will inevitably encounter the moons so be careful.
 +
 
 +
Congratulations! You have now reached Jool!
 +
 
 +
[[File:JoolLaythe.png|400x200px|thumbnail|right|A view of Jool and Laythe from orbit.]]
 +
 
 +
===Step 5.5 - Some Things to do After Reaching Orbit===
 +
Since it is not possible to land on Jool, here are some tasks that you could do in orbit.
 +
 
 +
- Gather science in orbit
 +
 
 +
- Bring probes and explore Jool's five moons: Laythe, Vall, Tylo, Bop and Pol
  
===After circulation===
+
- Try landing your ship one one of the moons
You should put your orbit in a moon unaffected region
 
  
===Step 6 - Traveling to its moons===
+
- Gather science from Jool's mysterious atmosphere
One by one you should deploy landers to go to each of the moons and do lots of science.
 
  
===on the moons===
+
===Step 6 - Returning Home===
When you have landed on each moon make sure you take and store all the data in your command pod as this will make your life easier in space. Then take off into jool orbit
+
First, select Kerbin as your target. Next, wait until Kerbin is about 50 degrees behind Jool. Set up a maneuver node at about 45 degrees past sunrise. Then, pull out your prograde vector until the dotted yellow line leaves the Joolian system and crosses Kerbin's orbit. If you have done these steps correctly, you should see two white arrows near each other, one pointing up and one pointing down. If you do not see these arrows, you might have to tweak your orbit a bit. Play with the prograde and retrograde vectors a bit until you see the arrows. If you get the two white arrows close enough to each other, you will get an encounter with Kerbin. If you cannot get an encounter, try moving your maneuver node around a little bit. Once you complete the burn, you will be on a course back to Kerbin.
  
===docking back together===
+
From here, ether burn retrograde at periapsis or aerobrake using Kerbin's atmosphere.
Dock ALL the landing devices back together to the main ship. transfer all fuel, electricity, xenon, ore and Monopropellant to the main ship and have your kerbals go on EVA and take the data and jet pack to your main ship crew quarters(I do know that crew transfer exists but this is for science purpose)and make sure no science or resources are stored on board the landing devices and then undock all of them or risk not getting to kerbin by taking them with you.
 
  
===the return===
+
===Other Ways to Reach Jool===
Make sure kerbin is behind jool and now escape jool and then burn what you need to burn to make your periapsis one the orbit of kerbin and you should get an encounter. Put your periapsis at 30-20km and swiftly get rid of any engines or fuel tanks and start the re-entry procedure.
+
Another way to reach Jool is to preform a Gravity Assist around Eve. (You can find that here: [[Tutorial: Gravity Assist]])
  
===Final Word===
+
==Closing Word==
You have successfully done a mission to the joolean system and now you have explored most of the kerbol system and now you can build bases, send rovers and more to the planets of kerbal space program. Have fun!
+
You have now successfully done a mission to Jool! Your next mission is to now go to [[Eeloo]], the farthest planet in the [[Kerbol]] system. Or, you could also go to [[Moho]], the one closest to the sun. It's your choice! I thank you for using this tutorial and wish you good luck on your journey through the [[Kerbol]] system. Bye!
==Ideas==
 
Re do the Galileo probe entry to Jupiter
 
[[Category:Tutorials|Tutorial:How to get to Jool]]
 
  
Try a low mass Jool ship using Ion engines.
+
[[Category:Tutorials|Jool]]

Latest revision as of 07:32, 28 July 2024

Jool. If you don't see this at some point during the tutorial, you've probably done it incorrectly.

Introduction

Jool is the second most distant body in the Kerbol system, and one of the more time-consuming locations to reach. Getting to Jool is really the next step after Eve, Duna, and Dres, and is an attractive target due to its large atmosphere and complex moon system.

Specifications

  • Length: 1–3 hours
  • Difficulty: Moderate/Hard
  • For version: 1.0 to 1.12

Additionally, you will need a good understanding of orbital mechanics (see Tutorials section), angles, possibly aerobraking and a lot of patience.

Getting To Jool

Step 1 - Build Your Rocket

This rocket should be fully capable to reach Jool. To build this rocket, you will need at least 8,300 Delta-V. To save some Delta-V in your rocket, you could aerobrake around Jool or Laythe. Ideally, in Career mode, you should have a fully upgraded level 6 Technology tree to build this rocket. You could probably get away with a level 5 Technology tree but you will probably need to add more stages or more power to the bottom stage to make this design work.

Upper Stage

This stage should have enough fuel to get into Jool orbit and to possibly travel around Jool's 5 moons. You can reduce the required fuel by aerobraking inside Jool's atmosphere, but it requires a heat shield on the top of the rocket. At a bare minimum, use a Rocketmax Jumbo-64 Fuel Tank (or multiple small tanks) and ether a RE-L10 "Poodle" Liquid Fuel Engine or a LV-N "Nerv" Atomic Rocket Motor on the end.

A rocket fully capable of reaching Jool and returning.

Here is my design (in the image to the right): Start with a MK1-2 Command Pod and stick a Rockomax Brand Decoupler under that. Next, put a Service Bay (2.5m) with whatever you want inside it (Science, batteries, etc...). Ether put a Rockomax X200-8 Fuel Tank or a Rockomax X200-16 Fuel Tank under the service bay. On both sides of the fuel tank and the service bay, stick 2 Rockomax X200-32 Fuel Tank with fuel lines going into the smaller fuel tank. For engines, ether use RE-L10 "Poodle" Liquid Fuel Engine or a LV-N "Nerv" Atomic Rocket Motor and stick it to the bottom of the small fuel tank. If you are going to aerobrake, stick a Heat Shield (10m) on top of the MK1-2 Command Pod. Remember to stick some parachutes, batteries and solar panels to power the reaction wheels.

Middle Stage

The middle stage should be able to escape Kerbin's SOI and get an encounter with Jool. A Rockomax Jumbo-64 Fuel Tank will do for most small rockets but it depends on the size of your upper stage.

Put a Rockomax Brand Decoupler then a Rockomax X200-32 Fuel Tank under it. On ether side, put some Rockomax X200-16 Fuel Tank with fuel lines going into the big tank. Any medium engine will work just fine for this stage but I prefer to use a RE-I5 "Skipper" Liquid Fuel Engine instead. Put a pair of AV-R8 Winglet on each fuel tank.

Lower Stage

This is the launcher stage that will get the rocket into orbit. Make sure you use a lot of Solid rocket booster and powerful engines. The size of your lower stage greatly depends on the size and mass of the middle and upper stages.

Put a Rockomax Brand Decoupler and then two Rockomax Jumbo-64 Fuel Tank under that. Put a RE-M3 "Mainsail" Liquid Engine under the fuel tanks and use four way symmetry to put the same build around the original fuel tanks (refer to the image above). Next, put some Hydraulic Detachment Manifold around the four fuel tanks (not the one in the middle). Use some LFB KR-1x2 "Twin-Boar" Liquid Fuel Engine in pairs of two on each Hydraulic Detachment Manifold. Use some AV-R8 Winglet and put them symmetrically on each booster. Put some TT18-A Launch Stability Enhancer on the boosters and make sure to use a lot of struts all over the ship.

Staging

The staging for the Jool rocket.

For staging of the ship, you can also refer to the image on the right.

The 8th stage fires the boosters and decouples the launch struts.

The 7th stage fires the decouplers attached to the boosters. (Optional: Add Sepratron I)

The 6th stage fires the main engines to the rocket.

The 5th stage decouples the main fuel tanks and the main engine.

The 4th stage fires the 2ndengine (the one for the Interplanetary Transfer)

The 3rd stage decouples the middle stage.

The 2nd stage fires the smallest engine (the one used in Jool orbit)

The 1st stage decouples the upper stage for Kerbin landing.

The last stage fires the number of parachutes you want to include.

Step 2 - Planetary Alignment

Jool should be ~90 degrees ahead of Kerbin.

While not absolutely essential, the easiest and fastest way to reach Jool from Kerbin is ensuring that they are properly aligned. Otherwise, you may spend a lot of time (possibly years) and fuel drifting until they happen to match up. To do so, check your map and make sure that Jool is in front of Kerbin in its orbit around Kerbol, and if you were to draw a line from Jool to Kerbol to Kerbin, it would form a ~90 degree angle.

Alternatively, you can visit The Interplanetary Guide and Calculator to calculate your own path.

Step 3 - Launching into Kerbin Orbit

Start with a normal launch from Kerbin by making a gravity turn at ~10km (or whatever you are familiar with). Get your apoapsis to ~70 to ~100km then make your orbital insertion. If you have extra fuel in your lower stage after your orbital insertion, make sure to save it for your interplanetary transfer.

Step 4 - Fly from Kerbin to Jool

A successful transfer between Kerbin and Jool.

Once you are in orbit, and Kerbin and Jool are aligned properly, select Jool as your target, it makes things a lot easier. Next, make a maneuver node about 45 degrees past sunset. Then, pull out your prograde vector until the dotted yellow line leaves the Kerbin system and crosses Jool's orbit. If you have done these steps correctly, you should see two white arrows near each other, one pointing up and one pointing down. If you do not see these arrows, you might have to tweak your orbit a bit. Play with the prograde and retrograde vectors a bit until you see the arrows. If you get the two white arrows close enough to each other, you will get an encounter with Jool. If you cannot get an encounter, try moving your maneuver node around a little bit. Once you complete the burn, you will be on a course to Jool!

Step 5 - Arriving at Jool

A small probe aerobraking in Jool's dense atmosphere.

When you get into Jool's SOI, you basically have three options for getting into orbit.

1- Play it safe and burn retrograde at periapsis, but risk running out of fuel

2- Aerobrake, save some fuel but risk burning up in Jool's atmosphere

3- Use a gravity assist off of either Laythe or Tylo to capture into Jool orbit

Option 1- When you arrive into Jool's SOI, make sure your periapsis is is above 200km. Simply point and burn retrograde at periapsis until you get into a stable orbit.

Option 2- A few days before you arrive in Jool's SOI, play with a maneuver node and get your periapsis under 200km, inside Jool's atmosphere. The height of the periapsis is totally up to you, but I recommend not to go under 160km. Once there, enter Jool's atmosphere pointing retrograde. Try to keep your ship as stable as possible and not flip around, or else you could burn up. Once you have exited the atmosphere, burn retrograde for a bit if you are not in a stable orbit.

A safer alternative to option two is to aerobrake in the orbit of Laythe, which is similar to Kerbin's atmosphere. Then just simply transfer to an orbit around Jool. This option does require more planning, and I will not be explaining how to do it.

Option 3- (Recommend to enable maximum orbital lines in settings) This option is the hardest to pull off. Due to the size of Laythe and Tylo, performing a close fly-by of either can capture you into a Jool orbit with marginal fuel burnt in the process. There are a few steps to achieve this.

1. Make a maneuver node anywhere before your Jool encounter, preferably around Duna's orbit.

2. Using the node, align your path along Jool's equator i.e use the normal nodes to move it up/down until it is least inclined to the orbit of the inner 3 moons. Make sure the trajectory is anticlockwise around Jool unless you want to orbit the opposie direction of all its moons.

3. Pull on the normal and prograde/retrograde nodes until your node encounters Laythe or Tylo.

4. Repeat step 3 for your chosen moon. Observe your trajectory while you edit the node, and keep editing it until you are predicted to capture into Jool orbit. Keep your periapsis above 50km for Laythe and 10km for Tylo - below these margins is not safe for interplanetary vessels.

5. Execute the burn.

6. Sit back and watch. Be careful however - the orbit resulting from this will inevitably encounter the moons so be careful.

Congratulations! You have now reached Jool!

A view of Jool and Laythe from orbit.

Step 5.5 - Some Things to do After Reaching Orbit

Since it is not possible to land on Jool, here are some tasks that you could do in orbit.

- Gather science in orbit

- Bring probes and explore Jool's five moons: Laythe, Vall, Tylo, Bop and Pol

- Try landing your ship one one of the moons

- Gather science from Jool's mysterious atmosphere

Step 6 - Returning Home

First, select Kerbin as your target. Next, wait until Kerbin is about 50 degrees behind Jool. Set up a maneuver node at about 45 degrees past sunrise. Then, pull out your prograde vector until the dotted yellow line leaves the Joolian system and crosses Kerbin's orbit. If you have done these steps correctly, you should see two white arrows near each other, one pointing up and one pointing down. If you do not see these arrows, you might have to tweak your orbit a bit. Play with the prograde and retrograde vectors a bit until you see the arrows. If you get the two white arrows close enough to each other, you will get an encounter with Kerbin. If you cannot get an encounter, try moving your maneuver node around a little bit. Once you complete the burn, you will be on a course back to Kerbin.

From here, ether burn retrograde at periapsis or aerobrake using Kerbin's atmosphere.

Other Ways to Reach Jool

Another way to reach Jool is to preform a Gravity Assist around Eve. (You can find that here: Tutorial: Gravity Assist)

Closing Word

You have now successfully done a mission to Jool! Your next mission is to now go to Eeloo, the farthest planet in the Kerbol system. Or, you could also go to Moho, the one closest to the sun. It's your choice! I thank you for using this tutorial and wish you good luck on your journey through the Kerbol system. Bye!