Earth from Other Bodies
Scripts for Stellarium Version 10
5 Files
1) Earth - Best views of from other bodies 2000-2100.ssc
2) Earth - Oppositions from Mercury.ssc
3) Earth - Oppositions from Venus.ssc
4) Earth - Greatest Elongations from Mars.ssc
5) Earth - Greatest Elongations from Mars.ssc
Instructions:
1) Download file
2) Extract the file into script directory
3) Run Stellarium
4) Open script
5) Run file
6) Follow Directions on script's main menu
Description:
1) Earth - Best views of from other bodies
2000-2100.ssc
Script contains the best date in the 21st century to view Earth from every
other planet and our moon.
Planets / Date / Comment
Mercury: 5/31/2061 - Interestingly Mercury is closest to Earth while Earth is farthest from the sun.
Venus: 12/17/2093 - Closest Earth Opposition of the 21st century as seen from a floating city 50000 meters up.
Moon: 1/21/2023 - The moon becomes completely new (resulting in the brightest fullest Earth) within 4 minutes of Perigee
Mars: 8/12/2084 - Like Earth with Venus, Earth's greatest illumination occurs about a month after it's greatest elongation. The best one in the 21st century is in 2084 when Earth is particularly close and bright. Bonus! Phobos occults Earth the very same night. Make Reservations now to be on Mars this day!!! Note: if you break from the script here and return to normal time rate, the occultation will occur in about 1½ minutes (Phobos moves fast)
Ceres: 10/19/2082 - From Ceres the Earth has equally really bright greatest illumination dates at 23 and 9 year intervals. I went with 2082 because at the same time there's also a triple conjunction between Earth, Venus and Mars.
Jupiter: 7/15/2058 - 11.603°
Saturn: 9/15/2031 - 6.343° through the rings
Uranus: 6/16/2052 - 3.181°
Neptune: 7/17/2031- 1.952°
Pluto: 9/1/2000 - 1.934° - Every day in the 21st Century Pluto gets farther and farther from the sun (and thus Earth) so it's best view of course is right in the beginning,.
For the outer planets, for the best date, I use when the Earth is farthest angular seperation (The greatest - greatest elongation) from the sun. The Earth will brighten from greatest elongation to superior conjunction, but because the angular seperation is small if you were on these planets you wouldn't be able to see earth at other times.
The view from the gas giants is from the tops of their atmosphere.
Pressing the [ key turns on and off all flags and labels, this way
2) Earth - Oppositions from
Venus.ssc
Script will show how, where and what Earth will look like during oppositions
from a floating city on Venus.
Many scientist believe that it is not the Moon or Mars that we will colonize
first, but instead we will colonize Venus. While the surface of Venus at
800°F is out of the question, humans might instead attempt to colonize
the Venusian atmosphere in floating cities. This is because at an altitude
of approximately 50 kilometers in Venus' upper atmosphere, the pressure and
temperature are quite Earth-like (1 bar and 0-50 degrees Celsius).
On Venus, Earth will come into opposition about every 17 months, this script will show where and what Earth will look at on those opposition dates to anyone who is on one of these floating cities.
Latitude: As the start of the script the program will look to Polaris to get your latitude and it will use the same on Venus.
Longitude: Trying to calculate the best time to see an Earth opposition from a fixed longitude on Venus is pretty much way beyond my ability. Not to mention due to Venus' slow 243 Earth day rotation it might be many months after the opposition that Earth rotates into view. However, being in a floating city, longitude is not fixed so instead of time I just move the city to the longitude that's good to observe the Earth opposition. That's not too much of a strech as at ~50000 km any floating city would rotate around Venus every 4 days which is more reasonable then 243. Lucky it's easy to calculate as Earth comes into oppositions just a little bit more than a half a degree longitude to the west of the previous one, so in order to keep Earth on screen I only have to shift longitude once 20 years.
Some related links of intrest
Colonization
of Venus - Wikipedia
Colonization
of Venus - Geoffrey A. Landis
A
Floating City on Venus
3) Earth - Oppositions from Mercury.ssc
Script will show how, where and what Earth will look like during oppositions from the surface of Mercury.
Latitude: As the start of the script the program will look to Polaris to get your latitude and it will use the same on Mercury.
Longitude: Trying to calculate the best time to see an Earth opposition from a fixed longitude on Mercury has the same problems as Venus so I also had to change longitude to follow the opposition. Though it's much more difficult as there are 3 oppositions at 3 seperate spaced out longitudes in a year. There is however a repeating pattern. The next 3 oppositions shift are the same as before except shifted ~9 Degrees to the east, for example if a set of 3 oppositions have a overhead longitude of W117, 0, E135 then the next 3 will be W108, E9 and E144 and the next W99, E18 and E152 which will result in a 40 year repeating pattern.
When I was making this program I had the current cycle (1,2 or 3) and Longitude displayed to help me figure out this pattern. I left it in just as a FYI
4) Earth - Greatest Elongations from
Mars.ssc
This script will show what Earth will look like on Mars on the dates when it reaches it's greatest elongation.
Earth doesn't have the "Great" Greatest elongations on Mars that Venus does here on Earth. Due to the eccentricity of Mars' orbit it's also more variable. Earth only separates from the sun between 30.5° and 36.3°
Longitude: I use my own -73W for the script. This allowed me to pick a good initial time to start the search for the best time to display Earth.
With the new scripting engine now in version 10, the scripts can now attempt to find the best time to display Earth. The script will search until it finds either
A) When the sun is 11 and 17 Degrees below the horizon
or
B) When Earth is more than 3 degrees above the horizon
Initially it might take a second or two to find the best time and when it does it will remember the time and if you come back to that same elongation the script will know when is the best time to start looking thus cutting down on searching time.
I put a limit, The script will only search for 3 seconds, if it doesn't find a good viewing time it will stop. This is to prevent the script for searching forever in Polar regions (and maybe near polar regions when the planet "runs high" or "rides low") when the sun is up for 24 hours (or close to it) or the Planet is below the horizon for 24 hours. To cut down on this I limit the latitude
Mars comes particularly close to the Earth near it's opposition approximately every 15 - 17 years i.e. 2003, 2018, 2035, etc, during these times Mars is at it's brightest as seen from Earth. However these years aren't particularly impressive when viewing Earth from Mars, but approximately 2 years before (during morning greatest elongations) and 2 years after (during evening greatest elongations) these close encounters, Earth will have it's largest Greatest Elongations and best showings as seen from Mars.
Latitude: As the start of the script the program will look to Polaris to get your latitude and if it's between 45° South and 45° North it will use the same on Mars. At higher latitudes, because Mars' axis is slightly more tilited than on Earth and Earth doesn't get as far from the sun I set it to 45° S or N depending on your location. If during the script for some reason you want to move the latitude higher, you can.
5) Earth - Greatest Elongations from
Jupiter.ssc
This script will show what Earth will look like on Jupiter on the dates when it reaches it's greatest elongation.
Earth at it's Greatest Elongation as seen from Jupiter separates only between 10.2° to 11.6° from the sun
Latitude and Longitude: Since Jupiter has pretty much no tilt I set the Latitude at the equator, and longitude I used my own. The sunset/sunrise times are pre-determined, there is no searching around like in the GE from Mars script.
I chose the altitude of 71,492,000 meters (Jupiter's radius) because
a) Earth is too close to the sun so it's lost in the dawn/dusk,
b) Jupiter's atmosphere is so thick you wouldn't be able to see it (or anything
else).
So the top is the only place you would have a chance of seeing Earth
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No I didn't type all these years and times out. I wrote a computer program based on Paul Schlyter's work at
http://www.stjarnhimlen.se/comp/ppcomp.html
which produced all these values.
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My dates I calculated do seem to match other dates from a wide variety of sources, but I make no guarantee on accuracy.
I'm sure accuracy decreases the further back or forward in time any given
script goes.
I can be emailed at qam1@aol.com