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Science and Astronomy Questions

Posted: 09 Aug 2018 20:55
by Watsisname
This raises an interesting point as to the affects of time dilation, as I remember reading about that famous experiment involving the ISS astronaut Scott Kelly staying aboard the ISS for 520 days — all of which he spent zooming around Earth at 17,500 mph (28,160 km/h). When he came back do to Earth, he was 6 minutes and 5 milliseconds younger then his twin brother, Mark.
Space travel has a lot of complicated effects on the human body.  But I do not think it is correct to say that he came back 6 minutes younger, and time dilation definitely cannot explain that.  For spending 520 days in orbit, the time dilation would amount to him losing about 13 milliseconds compared to his twin.  (-15 milliseconds from special relativity, and +2 milliseconds from general relativity.)

So he did come back literally younger, which would be measurable by an atomic clock (regular wristwatches are not accurate enough to measure a 13 millisecond difference out of a year), but not to any extent measurable by medical science.  Whatever changes they found in his body had a different cause. :)

I might have been overlooked 
Sorry An'shur -- I didn't overlook it, but I don't know of the answer offhand.  I may try to figure it out when I have the opportunity.

Science and Astronomy Questions

Posted: 10 Aug 2018 04:43
by An'shur
I might have been overlooked 
Sorry An'shur -- I didn't overlook it, but I don't know of the answer offhand.  I may try to figure it out when I have the opportunity.
Nevermind, I'll wait. ;)

Science and Astronomy Questions

Posted: 10 Aug 2018 04:47
by JackDole
I came across an interesting video. I am wondering how could I calculate the orbital period of the configuration at 3:32.
I gave all stars the same mass (MassSol 1) and then calculated the orbital period 1 against 2. (I do not know if that's right, but it works.)
As SemiMajorAxis I took 0.3 and for the Eccentricity 0.5
Image
This version is also possible.
A.png
Image
And some others would have to be possible too.

Science and Astronomy Questions

Posted: 10 Aug 2018 05:07
by An'shur
JackDole, I cannot outright claim that your approach with the first configuration is incorrect either. But unlike your second gif, the binary stars in the video have retrograde orbits. (Which should not be a problem in SE at all anyway)

The next examples: To me the green market orbit of the two stars looks more like an egg than an ellipse. The green orbit of the star jumping between the other two appears to be an ellipse. yet it moves fast near both periastrons and slower near the center of the ellipse. I don't know.. enough epicycles might approximate both with satisfactory accuracy. (Unless I have to do like 50 of them...)

Science and Astronomy Questions

Posted: 10 Aug 2018 07:00
by JackDole
the binary stars in the video have retrograde orbits.
Here is the retrograde version:
Image
The third example is unfortunately not possible. The star on the middle orbit would have to be faster at both ends of the ellipse, but that is not possible in SE.

But here is the fourth version. My version of it. Of course, SE can not produce egg-shaped orbits.

Image
(If you want it to be as accurate as possible, of course you would need the right parameters.)

Science and Astronomy Questions

Posted: 10 Aug 2018 08:57
by An'shur
JackDole, Yes, the third example seems impossible, at least not with one epicycle. I attemped it, but the planet is slowest near the ellipse focal points. If you imagine the epicycle's (I used a barycenter) orbital period to be 1 and that of the planet -1, then you get an ellipse with the Sun in the center. If both semimajor axes were of the same size, the planet would move on a straight line and pass through the star. Sorry, I was lazy gif-maker refused to work, so here is a screenshot.

Image

Fourth example is cool! Not egg-shaped but sufficient. I do not aim for 100% accuracy, since realism gets thrown out of the window anyway with all of these orbits, since they are unstable.

Science and Astronomy Questions

Posted: 10 Aug 2018 10:29
by JackDole
An'shur, I have a version of the third example. But as I said, the speeds are not right. And you can see the second (wrong) Barycenter if you have orbit lines on.

Image

Science and Astronomy Questions

Posted: 13 Aug 2018 04:18
by N0B0DY
Will the Parker Solar Probe eventually "crash" onto the sun (burn well before that obviously :) ) based on this video:

[youtube]cMNQeCWT09A[/youtube]
Will the Venus encounters have enough gravitational energy to slow it down enough to eventually "touch " the sun's corona?
Will these Venus encounters occur without course corrections?
Sorry if my question(s) are dumb.

Science and Astronomy Questions

Posted: 13 Aug 2018 12:43
by Watsisname
Will the Venus encounters have enough gravitational energy to slow it down enough to eventually "touch " the sun's corona?
The Sun's corona doesn't really have a hard limit to it, but rather smoothly transitions into the solar wind, filling the whole solar system.  In a sense, aurora are particles from the Sun's atmosphere slamming into Earth's atmosphere.

During eclipses the human eye can see the corona spanning several solar radii from the Sun's surface, or millions of kilometers.  In the 2017 eclipse I think I could see it out to about 5 solar radii.  But again in truth the corona stretches even farther than that -- it just gets progressively fainter.  The Parker Solar Probe should get almost that close.  Its orbit is expected to take it to about 6.2 million kilometers from the surface of the Sun, or 8.9 solar radii.  Against this photograph of the corona, that would place it right about at the red dot:

Image

This should definitely be close enough to get really interesting direct data. :)

Science and Astronomy Questions

Posted: 13 Aug 2018 14:02
by midtskogen
This should definitely be close enough to get really interesting direct data
Yes.  I felt a need to copy in something from Sunshine here. :)
[youtube]n0A3TrQ90hU[/youtube]

Science and Astronomy Questions

Posted: 15 Aug 2018 07:59
by Watsisname
Appropriate. :D  I had mixed feelings for that movie, but the music and visuals were sure awesome.

Science and Astronomy Questions

Posted: 15 Aug 2018 10:27
by midtskogen
Nice first half.  Second half, terrible.

I read a question posted somewhere today about the Parker Solar Probe today which I *think* was meant as a funny joke, but it's hard to be sure.  It went like: "I'm assuming that the probe will land at night, otherwise it will surely burn up, right?"

Science and Astronomy Questions

Posted: 15 Aug 2018 20:32
by Stellarator
It went like: "I'm assuming that the probe will land at night, otherwise it will surely burn up, right?"
I'm going to have to remember that one. My astronomy club can get a bit too serious otherwise.

Science and Astronomy Questions

Posted: 16 Aug 2018 16:20
by Stellarator
Is anyone here on the forum familiar with the computer program called StarGen (link:http://www.eldacur.com/%7Ebrons/NerdCorner/StarGen/StarGen.html), a program that simulates solar-systems around other stars based on the scientific papers of astronomers including Carl Sagan, and Stephen H. Dole, down to all the last detail, including atmospheric components? A complete history of the program and its methods can be found on the StarGen website, along with some info on "Accrete" HERE.

I found the program quite interesting to use and study, since its algorithms are based largely on work done by Stephen H. Dole, as mentioned earlier, who was the former head of the RAND Corporation's "Human Engineering Program". RAND had a number of eminent scientific consultants including John von Nuemann (among others) for their various projects, and I think needs no introduction to the community here, but if you are curious, the company website is here. Dole is the author of several books and papers, eminent among which is "Habitable Planets for Man" , a classical book written during space race I would highly suggest to any interested in planetary formation theory, planetary properties and a given planets habitability for modern homo sapiens sapiens (if you have not already). The book is a bit dated as far as astronomical discoveries go, but RAND published a new edition on its 60th anniversary that has some revisions and is fairly cheap to buy or download.

My questions are: are the techniques and algorithms presented by Dole, among those analyzed by Sagan, Isaacson and those utilized by StarGen, used in SpaceEngine, obviously with some adjustments to make room for original coding and new discoveries? Are they useful or viable? What do you think of Stephen Dole's work and has it held up reasonably well?

Science and Astronomy Questions

Posted: 18 Aug 2018 18:36
by Stellarator
Should I direct this to the attention of a SE team member? If they do use similar codes, then no harm done - If however they are completely unaware of Stephen Dole's work and the subsequent program it generated then it might help SE if I mention it :).