I started a mid-year NaNoWriMo a few weeks ago, and have found Celestia to be a great help in pinning down the occasional detail.
Is there any chance someone here could write a quick location-object or two, within a day or so, to help me with more visualizing? I'm not worried about what they look like, I'd just like to be able to easily see where they are as I zoom the viewpoint around.
One of the spots is the Earth-Moon L4 point. The other two are directly opposite the sun from 70 Ophiuchi A and B, 550 AU out.
In case you're curious, in the current draft, the protagonist's ship launches from a station at the L4 point on 2150-07-03, with a steady 0.2G acceleration. After getting to about a quarter AU from the sun, it makes a close pass of Titan, on the Saturn side; and then will be passing 2005 RL43, then 2006 SQ372, before making it to about 275 AU after about two and a half months, at which time it turns around and decelerates at 0.2G for the rest of the trip until arriving at the sunlens observatory for 70 Ophiuchi B. (And, eventually, it'll be heading back to Titan.) I've mostly been using pure eyeballing and a simple calculator to work out timings.
It would be nice to find out if any other known bodies are near this course, but when I tried loading the larger sets of asteroids from the Celestia Motherlode, my decade-old laptop sputtered and died.
Writing a novel, seeking help with Celestia
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Topic authorDataPacRat
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Writing a novel, seeking help with Celestia
Thank you for your time,
--
DataPacRat
"Does aₘᵢₙ=2c²/Θ ? I don't know, but wouldn't it be fascinating if it were?"
--
DataPacRat
"Does aₘᵢₙ=2c²/Θ ? I don't know, but wouldn't it be fascinating if it were?"
- SevenSpheres
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DataPacRat wrote:One of the spots is the Earth-Moon L4 point.
There is a Lagrange points addon; the download links seem to be missing but it's included in Celestia Origin (I can put it in a zip file and send it if you want).
DataPacRat wrote:The other two are directly opposite the sun from 70 Ophiuchi A and B, 550 AU out.
The easiest way to define that is using a barycenter, like this:
Code: Select all
Barycenter "DataPacRat" {
RA 91.36368827 # opposite 70 Oph
Dec -2.50009883 # opposite 70 Oph
Distance 0.00869706483 # 550 AU; converted using Google
}
DataPacRat wrote:It would be nice to find out if any other known bodies are near this course, but when I tried loading the larger sets of asteroids from the Celestia Motherlode, my decade-old laptop sputtered and died.
If you have a trajectory file, maybe I can check and see...
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Celestia versions: 1.5.1, 1.6.1, 1.6.2, 1.7.0, and some unofficial versions like Celestia-ED
Celestia versions: 1.5.1, 1.6.1, 1.6.2, 1.7.0, and some unofficial versions like Celestia-ED
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Topic authorDataPacRat
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SevenSpheres wrote:There is a Lagrange points addon; the download links seem to be missing but it's included in Celestia Origin (I can put it in a zip file and send it if you want).
I'd appreciate that; 8.3 gigabytes seems a little much to download to get such a small addon.
If you have a trajectory file, maybe I can check and see...
I'm afraid I don't have such a file. At a constant 0.2G, launching on 2150-07-03 gets her to Titan around 2150-07-21; given that that's faster than just about anything moving at merely orbital speeds, I've mostly just been zooming the viewpoint between Earth and Saturn between those dates. (And occasionally trying non-Celestia visuals, such as fourmilab.ch's orrery.)
Thank you for your time,
--
DataPacRat
"Does aₘᵢₙ=2c²/Θ ? I don't know, but wouldn't it be fascinating if it were?"
--
DataPacRat
"Does aₘᵢₙ=2c²/Θ ? I don't know, but wouldn't it be fascinating if it were?"
- SevenSpheres
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DataPacRat wrote:I'd appreciate that; 8.3 gigabytes seems a little much to download to get such a small addon.
Here it is:
- Attachments
-
- cc_lagrange.zip
- (40.95 KiB) Downloaded 318 times
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Celestia versions: 1.5.1, 1.6.1, 1.6.2, 1.7.0, and some unofficial versions like Celestia-ED
Celestia versions: 1.5.1, 1.6.1, 1.6.2, 1.7.0, and some unofficial versions like Celestia-ED
Good for you SevernSpheres, I was just doing a post of that.
Just in case it is different, here is what I found anyway.
This is supposed to show all legranges in our system.
To create your own powered flight xyzv file, here are the basics.
You need the position in xyz of your starting point. {I have a fork that shows them in realtime if you need it, at least one is posted somewhere on the forum, but I lost track of where.}
You need a unit of time between samples.
You need the distance traveled in this sample, dx,dy,dz.
This means keeping track of your speed, including planetary effects if you want a real looking trajectory.
The following are borrowed from huygens.xyzv
The start of each new entry should match as close as feasible to the end point of the previous entry.
Be sure to include turnover/deceleration in planning your course, pilot sober, planets don't move over.
Always include the gravity/influence of the sun in your calculations.
Be sure to include the gravity/influence of any planetary bodies while near them.
Ideally keep a log of velocities at every loci, then plot it to see how it looks.
Not everything of course, but I hope it gets you started.
I use asterisms to plot journeys between stars myself.
Doesn't work for planets because it stores the endpoints in a static array.
Janus.
Just in case it is different, here is what I found anyway.
This is supposed to show all legranges in our system.
To create your own powered flight xyzv file, here are the basics.
You need the position in xyz of your starting point. {I have a fork that shows them in realtime if you need it, at least one is posted somewhere on the forum, but I lost track of where.}
You need a unit of time between samples.
You need the distance traveled in this sample, dx,dy,dz.
This means keeping track of your speed, including planetary effects if you want a real looking trajectory.
The following are borrowed from huygens.xyzv
- # Records are <jd> <x> <y> <z> <vel x> <vel y> <vel z>
# Time is a TDB Julian date
# Position in km
# velocity in km/sec
2453364.58408 -2678111.3235 -1619946.70639 807564.757047 -0.38810156 -1.7344566 0.87737208
2453364.6063 -2678851.1813 -1623272.95209 809247.424125 -0.38245277 -1.7306717 0.87551753
2453364.96185 -2689197.26216 -1675582.3471 835715.879432 -0.29164558 -1.6749484 0.84771755
2453365.31741 -2696800.57637 -1726185.25953 861332.807521 -0.20383635 -1.6195637 0.82007488
2453365.67297 -2701748.743 -1775091.13355 886102.538186 -0.11874181 -1.5644514 0.79255503
The start of each new entry should match as close as feasible to the end point of the previous entry.
Be sure to include turnover/deceleration in planning your course, pilot sober, planets don't move over.
Always include the gravity/influence of the sun in your calculations.
Be sure to include the gravity/influence of any planetary bodies while near them.
Ideally keep a log of velocities at every loci, then plot it to see how it looks.
Not everything of course, but I hope it gets you started.
I use asterisms to plot journeys between stars myself.
Doesn't work for planets because it stores the endpoints in a static array.
Janus.
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Topic authorDataPacRat
- Posts: 17
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- With us: 14 years 5 months
- Location: Niagara, Canada
I was a little nervous when I started reading the instructions in the readme of SevenSpheres' .7z, but Janus's .ssc slipped into my extra folders without any effort at all, and is working just fine.
I seem to have missed a step in SevenSpheres' Barycenter suggestion; I'll be spending a bit of time today trying to dig through Celestia's docs and FAQs to see what else I might need to do to get it to work. (And to then try adapting it to having two points, opposite 70 Ophiuchi A and B, to see if my initial estimate that their 550-AU opposition points are 1.4M km apart in 2150 is anywhere near accurate.)
I'm a little hesitant to spend all the time I'd need to figure out all the numbers to put together a proper powered-flight file for the 0.2G-accel spaceship; I'd prefer to be spending my time on more direct writing activities, such as dialogue and plot.
Perhaps somebody reading this, with a better computer than mine, might be willing to load up every known asteroid, comet, and dwarf planet into your copy of Celestia, set the date to July, 2150, and just eyeball the straight-line path between Earth and Saturn for anything that comes close?
I seem to have missed a step in SevenSpheres' Barycenter suggestion; I'll be spending a bit of time today trying to dig through Celestia's docs and FAQs to see what else I might need to do to get it to work. (And to then try adapting it to having two points, opposite 70 Ophiuchi A and B, to see if my initial estimate that their 550-AU opposition points are 1.4M km apart in 2150 is anywhere near accurate.)
I'm a little hesitant to spend all the time I'd need to figure out all the numbers to put together a proper powered-flight file for the 0.2G-accel spaceship; I'd prefer to be spending my time on more direct writing activities, such as dialogue and plot.
Perhaps somebody reading this, with a better computer than mine, might be willing to load up every known asteroid, comet, and dwarf planet into your copy of Celestia, set the date to July, 2150, and just eyeball the straight-line path between Earth and Saturn for anything that comes close?
Thank you for your time,
--
DataPacRat
"Does aₘᵢₙ=2c²/Θ ? I don't know, but wouldn't it be fascinating if it were?"
--
DataPacRat
"Does aₘᵢₙ=2c²/Θ ? I don't know, but wouldn't it be fascinating if it were?"
- Gurren Lagann
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If anyone is crazy enough to load the entire minor planet database, with over 950 thousand minor planets, its me!DataPacRat wrote:Perhaps somebody reading this, with a better computer than mine, might be willing to load up every known asteroid, comet, and dwarf planet into your copy of Celestia, set the date to July, 2150, and just eyeball the straight-line path between Earth and Saturn for anything that comes close?
I will be glad to help you in this interstellar journey.
"The tomorrow we're trying to reach is not a tomorrow you had decided on!"
- Simon the Digger
"Nothing is impossible for me, as long I'm determinated to keep moving forward!"
"If other people aren't going to do it, I'm going to do it myself!"
- Me (Gurren)
Current major projects:
- Aur Cir
- Cel+
- Project Sisyphus
- Populating the Local Group
- An galaxy generator
- Simon the Digger
"Nothing is impossible for me, as long I'm determinated to keep moving forward!"
"If other people aren't going to do it, I'm going to do it myself!"
- Me (Gurren)
Current major projects:
- Aur Cir
- Cel+
- Project Sisyphus
- Populating the Local Group
- An galaxy generator
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Topic authorDataPacRat
- Posts: 17
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- Age: 48
- With us: 14 years 5 months
- Location: Niagara, Canada
Say, does anyone have an SSC for the Martian trojans, such as 1999 UJ7?
It looks like the Sol-Mars L4 point might be close enough to my spacecraft's course to be interesting, and I'd like to double-check that.
It looks like the Sol-Mars L4 point might be close enough to my spacecraft's course to be interesting, and I'd like to double-check that.
Thank you for your time,
--
DataPacRat
"Does aₘᵢₙ=2c²/Θ ? I don't know, but wouldn't it be fascinating if it were?"
--
DataPacRat
"Does aₘᵢₙ=2c²/Θ ? I don't know, but wouldn't it be fascinating if it were?"
- SevenSpheres
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DataPacRat wrote:Say, does anyone have an SSC for the Martian trojans, such as 1999 UJ7?
Celestia Origin does.
Added after 7 minutes 45 seconds:
Here's an ssc for Mars trojans copied from CO (it does use CO's models/textures, not the standard ones):
Code: Select all
"5261 Eureka:Eureka:1990 MB" "Sol"
{
Class "asteroid"
Mesh "asteroid-small.cmod"
Texture "asteroid-smooth.dds"
Radius 0.595
EllipticalOrbit
{
Epoch 2457000.5 # 2014 Dec 09
Period 1.880555238438
SemiMajorAxis 1.523533220033
Eccentricity 0.06485967901
Inclination 20.280350684053
AscendingNode 245.062271504151
ArgOfPericenter 95.470351542616
MeanAnomaly 295.624269390609
}
UniformRotation
{
Period 2.6902
}
LunarLambert 0.5
Albedo 0.39
InfoURL "http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=5261"
}
"S-2011 (5261) 1" "Sol/5261 Eureka"
{
Class "moon"
Mesh "asteroid-small.cmod"
Orientation [ 180 1 0 0 ]
Texture "asteroid-smooth.dds"
Radius 0.23
EllipticalOrbit
{
Period 0.7054
SemiMajorAxis 2.1
}
LunarLambert 0.5
Albedo 0.39
InfoURL "http://www.johnstonsarchive.net/astro/astmoons/am-05261.html"
}
"(101429) 1998 VF31:1998 VF31" "Sol"
{
Class "asteroid"
Mesh "asteroid-small.cmod"
Texture "asteroid-smooth.dds"
Radius 0.799
EllipticalOrbit
{
Epoch 2457000.5 # 2014 Dec 09
Period 1.881762017365
SemiMajorAxis 1.524184932238
Eccentricity 0.100328001087
Inclination 31.294790383307
AscendingNode 221.322391024706
ArgOfPericenter 310.526627748271
MeanAnomaly 91.916892687217
}
UniformRotation
{
Period 6
}
LunarLambert 0.5
Albedo 0.1
InfoURL "http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=101429"
}
"(121514) 1999 UJ7:1999 UJ7:2002 AC180" "Sol"
{
Class "asteroid"
Mesh "asteroid-small.cmod"
Texture "asteroid-smooth.dds"
Radius 0.5
EllipticalOrbit
{
Epoch 2457000.5 # 2014 Dec 09
Period 1.882193782051
SemiMajorAxis 1.524418069783
Eccentricity 0.039136919906
Inclination 16.749537481645
AscendingNode 347.379840761632
ArgOfPericenter 48.287274683014
MeanAnomaly 20.548595409686
}
UniformRotation
{
Period 6
}
LunarLambert 0.5
Albedo 0.1
InfoURL "http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=121514"
}
"(311999) 2007 NS2:2007 NS2" "Sol"
{
Class "asteroid"
Mesh "asteroid-small.cmod"
Texture "asteroid-smooth.dds"
Radius 0.6
EllipticalOrbit
{
Epoch 2457000.5 # 2014 Dec 09
Period 1.880975095202
SemiMajorAxis 1.523759976442
Eccentricity 0.054014072045
Inclination 18.62132719199
AscendingNode 282.497751056666
ArgOfPericenter 176.83705786474
MeanAnomaly 179.984182906281
}
UniformRotation
{
Period 6
}
LunarLambert 0.5
Albedo 0.1
InfoURL "http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=311999"
}
"(385250) 2001 DH47:2001 DH47" "Sol"
{
Class "asteroid"
Mesh "asteroid-small.cmod"
Texture "asteroid-smooth.dds"
Radius 0.281
EllipticalOrbit
{
Epoch 2457000.5 # 2014 Dec 09
Period 1.881072696296
SemiMajorAxis 1.523812686462
Eccentricity 0.034628799188
Inclination 24.402060775768
AscendingNode 147.422786586973
ArgOfPericenter 17.48464780733
MeanAnomaly 112.843491004834
}
UniformRotation
{
Period 6
}
LunarLambert 0.5
Albedo 0.275
InfoURL "http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=385250"
}
"2011 SC191:2003 GX20" "Sol"
{
Class "asteroid"
Mesh "asteroid-small.cmod"
Texture "asteroid-smooth.dds"
Radius 0.3
EllipticalOrbit
{
Epoch 2457000.5 # 2014 Dec 09
Period 1.881071188511
SemiMajorAxis 1.523811872181
Eccentricity 0.044038278622
Inclination 18.744899957728
AscendingNode 5.783081159864
ArgOfPericenter 196.32408269031
MeanAnomaly 63.68823979715
}
UniformRotation
{
Period 6
}
LunarLambert 0.5
Albedo 0.275
InfoURL "http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2011+SC191"
}
"2011 SL25" "Sol"
{
Class "asteroid"
Mesh "asteroid-small.cmod"
Texture "asteroid-smooth.dds"
Radius 0.2875
EllipticalOrbit
{
Epoch 2457000.5 # 2014 Dec 09
Period 1.881127255013
SemiMajorAxis 1.523842150808
Eccentricity 0.11446937478
Inclination 21.495666738872
AscendingNode 9.416447999556
ArgOfPericenter 53.285030738101
MeanAnomaly 206.092572281302
}
UniformRotation
{
Period 6
}
LunarLambert 0.5
Albedo 0.275
InfoURL "http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2011+SL25"
}
"2011 UN63:2009 SA170" "Sol"
{
Class "asteroid"
Mesh "asteroid-small.cmod"
Texture "asteroid-smooth.dds"
Radius 0.28
EllipticalOrbit
{
Epoch 2457000.5 # 2014 Dec 09
Period 1.88098227022
SemiMajorAxis 1.523763851382
Eccentricity 0.064678514975
Inclination 20.360744685591
AscendingNode 223.561046485915
ArgOfPericenter 165.233633208151
MeanAnomaly 251.744558426591
}
UniformRotation
{
Period 6
}
LunarLambert 0.5
Albedo 0.275
InfoURL "http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2011+UN63"
}
My Addons: viewtopic.php?f=23&t=19978 • Discord server admin
Celestia versions: 1.5.1, 1.6.1, 1.6.2, 1.7.0, and some unofficial versions like Celestia-ED
Celestia versions: 1.5.1, 1.6.1, 1.6.2, 1.7.0, and some unofficial versions like Celestia-ED