Quickstart to the Moon: Difference between revisions
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==Trans-Lunar Coast== | ==Trans-Lunar Coast== | ||
Congratulations. You are on your way to the moon. But the apollo astronauts didn't just eat, sleep, and talk all the way to the moon. There is plenty to do. Well, ok, there are some things that will need to be done. Obviously you aren't ready to land on the moon yet. If you look at the outside of your ship, you'll notice that you don't even have a lunar module. It would be pretty embarassing to get all the way to the moon and realize you forgot the LEM back home. Fortunately, it was launched towards the moon with you, and is sitting safely inside the SIV-B stage. To get to it, you have to do a Transposition and Docking. Fortunately for you, this is relatively routine. If you can dock in orbiter at all, you can do this maneuver. | |||
===Transposition and | |||
{ | Of course, if it's inside the SIV-B, that means that you need to leave the SIV-B to get to it. Fortunately, there is a switch made just for that on your panel. But first, let's orient to make this job a little easier. | ||
===Transposition and Docking=== | |||
A basic breakdown of this procedure is [[Transposition and Docking checklist (Quickstart)|here]].This is best done quite a while after the TLI. In the real missions it was done between three and four hours after the TLI. There are a number of reasons for that, but the most important is that by this time, your trajectory has become relatively linear. So if you point at an object (say the sun) it won't move on you. Ok, let's do that. You want to look at your upper left window (From the full size main panel, hit ctrl+Up then ctrl+Left. From the split panel, go to panel 1 then hit ctrl+Up.). You should see the sun somewhere near that window. Moving it to the right edge of that window will put it in a good spot to light up the docking target on the lunar module. | |||
At this point, we are ready to separate from the SIV-B and get our LEM. Press J or use the switch on the panel (In the double vertical columns of covered black switches, it's the bottom one on the left column). You will start floating away from the SIV-B. That's ok, it's not very fast, and it's only in the forward direction. | |||
Now to dock. | |||
{| class="wikitable" | |||
|- | |||
| Switch to the same window you used to find the sun and position the COAS (click on the gray rectangular object). | |||
|- | |||
| Pitch up until the COAS is positioned near the docking target on the LEM. (Pitching up will help unsure a close to correct orientation. | |||
|- | |||
| Align with the LEM so that the "upside down T" is aligned with the crosshairs of your COAS (You may want to zoom in for this maneuver) ||[[IMAGE:COAS-ALIGNED-LEMTARGET.JPG|thumb|center]] | |||
|- | |||
| Use translation thrust to close on the LEM being sure to keep the "red" hidden behind the black of the target. | |||
|- | |||
| As you close, make sure you keep your attitude and position aligned so that you don't end up arriving way off center. || [[IMAGE:COAS-LEM-FINALSTAGES.JPG|thumb|center]] | |||
|- | |||
| Eventually you will make contact and dock. | |||
|} | |||
With the Transposition and docking done, you need to leave the SIV-B so you can get on with going to the Moon. To do so, simply hit J or the appropriate switch on the panel (On panel 1, the Launch and emergency switches, it is the far right on the top row of guarded switches.) In the real mission, the astronauts would have spent nearly an hour checking out the LEM connection to make sure they had a good hold of it and that they wouldn't leak air through the dock. In your mission however, this is not necessary, as you are such a good pilot, you have already assured a perfect connection. In the event it didn't go right, they would release the LEM and try again. | |||
At this point, we're ready for the coast part of Trans Lunar Coast. So, sit back, grab a movie, and go. It was common during the next couple days for astronauts to perform various house keeping duties and final checkout of the LEM. Most importantly, they checked that things were behaving as they should prior to leaving the free return trajectory they had established. In Apollo 13 on (This includes the Apollo 14 mission we're doing) The mission left the free return trajectory in order to reach the preferred landing spot. We're going to go to Fra Mauro. Why? Well, first of all, that's where Apollo 14 actually landed, and Second, it's really a cool place to land. | |||
To get there, we have to execute at least one mid course correction, so, let's do that. | |||
===Mid Course Corrections=== | ===Mid Course Corrections=== | ||
{{Under Construction | message=This section will contain guidelines to completing the Mid Course Corrections, as well as screenshots of the ones completed in the scenarios.}} | {{Under Construction | message=This section will contain guidelines to completing the Mid Course Corrections, as well as screenshots of the ones completed in the scenarios.}} | ||
==Lunar Orbit Insertion== | ==Lunar Orbit Insertion== | ||
{{Under Construction | message=This section will detail the actual approach to and insertion into orbit around the moon.}} | {{Under Construction | message=This section will detail the actual approach to and insertion into orbit around the moon.}} | ||
Revision as of 18:28, 13 November 2007
| ||
| This is a work in progress as I follow Tschachim's flight and create screen shots and scenarios. So far, it is done through TLI. To use the related scenarios, you'll need Jarmo Nikkanen's Interplanetary MFD (IMFD) 4.2.1 installed and active. If you can't find the referenced scenarios, make sure you do a CVS update. |
The first thing to do is make sure you have NASSP 7.0 Beta installed. As of the writing of this, it is entirely possible to get to the moon and back in quick start ("Orbiter") mode.
Launch
Let's start by loading up the "Apollo 14 Quickstart - Launch" Scenario in your "Project Apollo - NASSP\Quickstart Missions\Apollo 14" folder. Thanks to the switch flipping abilities of your virtual copilots (only available in quickstart mode) you can sit back and watch the launch. However, since we all want something to do during the launch, I'd recommend aligning the GDC. It's a few simple switches to flip, and while your copilot does do this, it tends to get out of alignment by the time launch happens.
| Switch | Panel | Action | Explanation |
|---|---|---|---|
| FDAI Select | 1 | Switch to 1 | When in 1/2 mode, the FDAI's are both controlled by the computer. Setting 1 allows user control. |
| FDAI Source | 1 | Switch to ATT SET | This unlocks the user of the attitude set controller |
| ATT SET | 1 | Switch to GDC | This allows the pilot to compare the set values to the GDC orientation. |
| FDAI 1 | 1 | Confirm needles centered | This means that the GDC is properly aligned for launch. If so, skip the next item. |
| GDC Align | 1 | Push if needles not centered | This actually aligns the GDC properly for launch. |
| FDAI Select | 1 | Switch to 1/2 | Returns control of the FDAI's to the computer, guided by the IMU/GDC |
With that complete, the only thing left is to switch propellant indicators on panel 1 to the launch vehichle and sit back and enjoy the ride.
| Switch | Panel | Action | Explanation |
|---|---|---|---|
| LV/SPS IND a/Pc | 1 | a | Monitor the pressure of the LV engines |
| LV/SPS IND SII/SIVB/GPI | 1 | SII/SIVB | Monitor the fuel left in the second and third stages. |
Eventually you will reach orbit. And then there's a bit more that needs doing. This is where the scenario "Apollo 14 - After Earth Orbit Insertion" joins in the fun
Orbit
Orbiting the earth is a simple process. For the most part, you just ride along. In quickstart mode, there is no systems management that is required of you. However, there is much that is still available. For example, you can rotate so you have a clear view of the stars through all windows. While in earth orbit, you do not have linear RCS available. Circularizing the orbit, making a perfect approach over a target, these things that are typical of Orbiter are not usually done in Apollo, so we're going to skip over them.
In the normal Apollo missions, the time of these first two parking orbits was used to test out the navigation equipment. Astronauts would take star sightings and input them into the computer which would align the IMU. On a later pass, they'd repeat, but then check the difference to measure IMU drift. This, along with several other factors regarding the health of the spacecraft would decide whether they were "Go for TLI." All of this inspection work is done automatically for you in Quickstart mode, and your ship always checks out. So, it's time to calculate TLI.
TLI
Calculating the TLI is a difficult process. There is an article already in place about it, so I'm simply going to post the "simple" version here.
First, open IMFD on both main MFD's. You'll want to set them to shared mode.
On one MFD select Course and "Off-Plane Intercept" Set the TEJ to be greater than your orbit period (usually about 7-8K should be good.) Then increase or decrease TEJ and TIN until you get a minimum burn time. This is important, not because the SIVB has limited fuel (though it does) but mostly because the SPS has limited fuel, and we have to have just enough energy to get to the moon, so that lunar capture doesn't take an insane amount of force.
On the other MFD it's a good idea to set map. This doesn't guarantee that you'll get an accurate projection, but it's nice to see what you're going to be able to expect. The map becomes significantly more accurate on the same orbit as the TLI burn.
Here is the MFD going into TLI (this is the plan that loads with the "Apollo 14 - Go for TLI" scenario.
Important to note is that the blue line indicates the intersection point at which you will transition from the green orbit (current) to the blue orbit (transfer).
The TLI can be done in quickstart mode by simply hitting page to get to the second page of the course program and selecting AB (autoburn).
The TLI will happen automatically and the spacecraft will leave earth orbit.
This is IMFD after the burn (don't worry if yours doesn't look this perfect, it is not extremely important).
Well, like hundreds of virtual astronauts before you, you are headed to the moon. At this point we are joined by the "Apollo 14 - After TLI" scenario.
Trans-Lunar Coast
Congratulations. You are on your way to the moon. But the apollo astronauts didn't just eat, sleep, and talk all the way to the moon. There is plenty to do. Well, ok, there are some things that will need to be done. Obviously you aren't ready to land on the moon yet. If you look at the outside of your ship, you'll notice that you don't even have a lunar module. It would be pretty embarassing to get all the way to the moon and realize you forgot the LEM back home. Fortunately, it was launched towards the moon with you, and is sitting safely inside the SIV-B stage. To get to it, you have to do a Transposition and Docking. Fortunately for you, this is relatively routine. If you can dock in orbiter at all, you can do this maneuver.
Of course, if it's inside the SIV-B, that means that you need to leave the SIV-B to get to it. Fortunately, there is a switch made just for that on your panel. But first, let's orient to make this job a little easier.
Transposition and Docking
A basic breakdown of this procedure is here.This is best done quite a while after the TLI. In the real missions it was done between three and four hours after the TLI. There are a number of reasons for that, but the most important is that by this time, your trajectory has become relatively linear. So if you point at an object (say the sun) it won't move on you. Ok, let's do that. You want to look at your upper left window (From the full size main panel, hit ctrl+Up then ctrl+Left. From the split panel, go to panel 1 then hit ctrl+Up.). You should see the sun somewhere near that window. Moving it to the right edge of that window will put it in a good spot to light up the docking target on the lunar module.
At this point, we are ready to separate from the SIV-B and get our LEM. Press J or use the switch on the panel (In the double vertical columns of covered black switches, it's the bottom one on the left column). You will start floating away from the SIV-B. That's ok, it's not very fast, and it's only in the forward direction.
Now to dock.
| Switch to the same window you used to find the sun and position the COAS (click on the gray rectangular object). | |
| Pitch up until the COAS is positioned near the docking target on the LEM. (Pitching up will help unsure a close to correct orientation. | |
| Align with the LEM so that the "upside down T" is aligned with the crosshairs of your COAS (You may want to zoom in for this maneuver) | |
| Use translation thrust to close on the LEM being sure to keep the "red" hidden behind the black of the target. | |
| As you close, make sure you keep your attitude and position aligned so that you don't end up arriving way off center. | |
| Eventually you will make contact and dock. |
With the Transposition and docking done, you need to leave the SIV-B so you can get on with going to the Moon. To do so, simply hit J or the appropriate switch on the panel (On panel 1, the Launch and emergency switches, it is the far right on the top row of guarded switches.) In the real mission, the astronauts would have spent nearly an hour checking out the LEM connection to make sure they had a good hold of it and that they wouldn't leak air through the dock. In your mission however, this is not necessary, as you are such a good pilot, you have already assured a perfect connection. In the event it didn't go right, they would release the LEM and try again.
At this point, we're ready for the coast part of Trans Lunar Coast. So, sit back, grab a movie, and go. It was common during the next couple days for astronauts to perform various house keeping duties and final checkout of the LEM. Most importantly, they checked that things were behaving as they should prior to leaving the free return trajectory they had established. In Apollo 13 on (This includes the Apollo 14 mission we're doing) The mission left the free return trajectory in order to reach the preferred landing spot. We're going to go to Fra Mauro. Why? Well, first of all, that's where Apollo 14 actually landed, and Second, it's really a cool place to land.
To get there, we have to execute at least one mid course correction, so, let's do that.
