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Space Earth

Mercury -- Not Venus -- is the Closest Planet To Earth on Average, New Research Finds (gizmodo.com) 177

That's the finding presented by a team of scientists who have published their results this week in an article in the magazine Physics Today. From a report: They explain that our methods of calculating which planet is "the closest" oversimplifies the matter. But that's not all. "Further, Mercury is the closest neighbor, on average, to each of the other seven planets in the solar system," they write. Wait -- what?

Our misconceptions about how close the planets are to one another comes from the way we usually estimate the distances to other planets. Normally, we calculate the average distance from the planet to the Sun. The Earth's average distance is 1 astronomical unit (AU), while Venus' is around 0.72 AU. If you subtract one from the other, you calculate the average distance from Earth to Venus as 0.28 AU, the smallest distance for any pair of planets. But a trio of researchers realized that this isn't an accurate way to calculate the distances to planets. After all, Earth spends just as much time on the opposite side of its orbit from Venus, placing it 1.72 AU away.

One must instead average the distance between every point along one planet's orbit and every point along the other planet's orbit. The researchers ran a simulation based on two assumptions: that the planets' orbits were approximately circular, and that their orbits weren't at an angle relative to one another.

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Mercury -- Not Venus -- is the Closest Planet To Earth on Average, New Research Finds

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  • by mykepredko ( 40154 ) on Thursday March 14, 2019 @12:25PM (#58273182) Homepage

    https://physicstoday.scitation... [scitation.org]

    Interesting work with the best message to get out of this; don't rely on what's obvious, test what you think is true.

    • by MachineShedFred ( 621896 ) on Thursday March 14, 2019 @03:24PM (#58274388) Journal

      Anybody that understands that all the planets aren't always in a single synchronized line could have inferred this - all the planets do not have the same orbital period, so there will always be a distribution around the Sun. This means that some of them may be on the opposite side of the Sun from us, and even though their average distance from the Sun is close to Earth's average distance from the Sun, they are not close to each other at that point in time.

      I didn't know there was opportunity for publishing papers that spell out common sense and grade school two-dimensional geometry, though.

    • It's pedantically stupid, not interesting. What most people mean by the closest planet is the planet which comes closest to Earth during its orbit not which is closest on average. Indeed the example of Neptune which they give is particularly stupid since its orbit is 165 years long so even if you averaged over an entire human lifespan you would not get that result. What this really boils down to a silly wordplay but I am sure it will be amusing when it turns up on QI!
    • Interesting work with the best message to get out of this; don't rely on what's obvious, test what you think is true.

      Yes, testing common sense systematically is a valuable undertaking that will always get blow-hards here opining that "so what, it is obvious/unimportant/blah-blah".

      But my intuition for this question would have been Mercury since it is so close to the Sun, on the far side of its orbit it would never get as far away as Venus would, even if it never gets as close on its closest approach.

  • by jeti ( 105266 ) on Thursday March 14, 2019 @12:35PM (#58273242)
    It's all about the delta-v [wikipedia.org].
    • Time doesn't matter?

    • by green1 ( 322787 )
      And this is the truth. In reality, a space mission is unlikely to ever be planned to coincide with when a planet is hardest to reach, so AVERAGE distance is irrelevant. The only 2 things you care about are the thrust required, and the time it will take to get there, so closest distance is relevant, average not as much.
    • What planet is easiest to send a spacecraft to? Is not exactly the same question as "What planet is at this moment closest to us?"

  • Eventually Earth's moon will be a dwarf planet. Then the closest planet will be The Moon.

    https://www.universetoday.com/... [universetoday.com]

  • by jfdavis668 ( 1414919 ) on Thursday March 14, 2019 @12:45PM (#58273316)
    Amatuer astronomers love to observe Mars. The problem is Mars is on a close, but outside orbit. Unlike Jupiter and Saturn, which the Earth passes every year in thier orbits, it is a different story with Mars. It is only really close for two months every 2 years. It spends most of its time on the far side of its orbit until the Earth can chase it down again, and then quickly races away. Even though you can view it through most of its orbit, it is small and normally far away. Venus, even when near the far side of its orbit, it is fairly easy to observe. At least once it rises far enough out of the Sun's glare. Mercury would be even better, but due to the small orbit it doesn't get far from the Sun from our point of view before it dives back down into the glare.
    • by dissy ( 172727 )

      It is only really close for two months every 2 years. It spends most of its time on the far side of its orbit until the Earth can chase it down again, and then quickly races away.

      It's because of this that make some interesting "artifacts" show up when plotting the path of Mars from the point of view on Earth when doing so on a 2d "map" of the night sky.

      On such a map, one sees Mars following a line as one would expect, then that path curves back around and it looks as if Mars is orbiting in the opposite direction for a time (roughly those two months), before it loops back around to continue in the original direction but along a path slightly offset from the original "tail" for the re

      • by jrumney ( 197329 )

        Presuming as an armature you are not going around Earth to chase this ideal view and instead are waiting for it to happen overhead where you are at, you have to not only wait for the right two month period it is close, but also the right two year period it is closest to where you are looking from.

        You'd think if we had armatures for the Earth we would have figured out how to rotate it so everyone can get a look during those two months by now...

  • by necro81 ( 917438 ) on Thursday March 14, 2019 @12:45PM (#58273320) Journal
    Well, shit, I need to recalculate my horoscope again.
    • Mars is closer to the earth than you thought, and you will still die alone surrounded by cats.

    • by igny ( 716218 )
      Yeah, next thing we find out is that Proxima Centauri is not the closed star to us at all...
  • I'd bet that all of the solar system's planets are closer to Sun than they are to any other planet.

  • The order of the planets people think of is based on their orbiting distance from the sun.

    We resolved the whole geocentric vs heliocentric model of the solar system long ago.

    Figuring out the actual distance between the planets is useful information if you want to figure out the shortest distance to get from one planet to another.

    If Mercury is close to the other planets, it may be beneficial to get to there rather than to Mars.

    • If Mercury is close to the other planets, it may be beneficial to get to there rather than to Mars.

      Not really. The only reason that the average distance between Mercury and the other planets is shortest is because the distance is shorter when Mercury is on the far side of the sun so you would need to travel thru the center of the sun to traverse this path. It would still technically be the shortest also by going around the sun but I canâ(TM)t think of a scenerio where stopping at Mercury first on the way to a planet on the far side really makes sense unless it was to take advantage of a free rid

    • If Mercury is close to the other planets, it may be beneficial to get to there rather than to Mars.

      If you could travel to planets as the light flies, perhaps. What matters when traveling is not the straight line distance, it's the delta-v. Mars is much closer in delta-v to earth, thus is it easier to get to. Venus is the closest planet in delta-v, so it's the easiest to travel to.

      https://external-preview.redd.... [external-preview.redd.it]

  • The average location should always be the center of the orbit.
    The planets orbit the sun, so that should be their average location.

    QED, shouldn't all planets be be equally close?

    • Think about two planets on the same solar orbit but opposite one another. They will always be the diameter of their orbit apart from one another. Not whatever distance you are referencing here (zero?).

      I think there is something to the idea that the orbit of the inner planet's varying distance might "cancel itself out" and could be modeled as sitting at the center of Sun. Even then though, the distance between Jupiter and Earth will be smaller than the distance between Neptune and Earth.

      But I'm not even s

    • by Dunbal ( 464142 ) *
      Except orbits are elliptical. There's nothing in the center of the orbit, and the sun is at one of the foci...
    • No. Consider the problem from a single point on the orbit of the outer planet. For our coordinates we can set the x-axis running from the sun to the outer planet, and the y-axis perpendicular in the plane. From this position, we can consider every point along the inner planet's orbit equally likely. If we were only looking at the x component of the average distance from the outer planet to the inner planet, you would be right, as it equals the distance from the outer planet to the sun, but there is a y com
    • No if parallax shift between the bodies is significant, than you can't base average distance off of average location, as trig functions aren't linear.

  • by Headw1nd ( 829599 ) on Thursday March 14, 2019 @12:55PM (#58273380)
    I saw some comments on the Physics Today article about this being pedantic, but astronomy is and always has been about pedantry. It's taking into account tiny details and vanishingly small deviations that allows us to do things like observe the composition of faraway stars or compute the age of the universe.
    • by jythie ( 914043 )
      Plus.. why is that a bad thing? Some researchers posted a piece that played with language a bit and demonstrated a different way of viewing a linguistically ambiguous statement that produces an interesting alternative result. It doesn't actually change anything, but it still kinda cool and I think that is all it really was.
    • by Trogre ( 513942 )

      It's not pedantry, it's changing the understood definition of "closest".

      This is taking the average distance between the celestial bodies themselves over a long period of time, instead of the common definition, the distance between the rings describing their orbits.

  • It's the same phenomenon as the fact that GPS overestimates the distance you've traveled:

    It's All About Jensen's Inequality [bayesium.com]

  • ...but how is this useful?

  • There is no 'misconception.' By 'closest' people have the orbits in mind, not the average vector distance. There is a clear rank of orbits from inner to outer and that's all that's meant be 'closest,' this stupid pedantry aside.

    One must instead average the distance between every point

    No one must not. One must stop publishing click-bait tripe like this.

  • ... to *EVERY* planet, isn't it?

    Why is this news?

  • This has always been obvious to anyone who thought about it for a while.

  • Is even closer than Mercury, on average...

    "On average" can sometimes be a terrible way to measure anything, though. Many times it tells you absolutely nothing.

    A man can drown swimming in a lake with an average depth of 1"...!

    • True. That is why so many don't grasp global warming ... average temperature increase of 1C or 2C has complete different meanings for every location.

    • A man can drown swimming in a lake with an average depth of 1"...!

      Let me simplify that to a man can drown in 1 inch of water - no swimming required. Average (is that mean or median?) is almost always useless without standard deviation or chi squared.

      • by ceoyoyo ( 59147 )

        True for two-parameter distributions. Shocking, you need to know both parameters.

        It's not true for one parameter distributions.

  • Literally:
    https://en.wikipedia.org/wiki/... [wikipedia.org]

    So for the sake of this research lets assume that all planets are on the same plane (they are not). Lets also assume perfectly circular orbits (they are not).

    Any other assumptions they want to make? They pretty much took all the realism out of it already.

    What would be a really interesting question (and likely take a lot of computational power), is to look at the criteria for launching spacecraft using gravitational techniques, and calculate all of the optimized dep

  • Blasphemy! Lockem up with that Galileo bloke.

  • Likely a similar approach will show that, on average, each planet is closer to the sun than to any other planet.

  • I mean, yes? But doesn't this fall out of the geometry of Kepler's laws of planetary motion? I guess I'm confused how this isn't an April 1st article.

  • The authors completely ignore the velocities at which the planets move. Their results may be kinda accurate for our solar system as it happens to be (but this should be checked properly), but they will still be "wrong" and surely are not as universal as their mathematical derivation/description suggests.

    By omitting the velocities, the authors ignore the fact that the distribution of the various distance values over time is not uniform. In the most extreme case, two planets might have the same angular vel

    • They didn't ignore the different orbital periods. That's why they used a uniform random distribution of all the planets on their orbits. The idea being that if you sample the planets all being randomly placed on their orbits enough times, then you approach looking at the planets over all time.

      Yes, this assumption and randomized analysis doesn't work if two or more planets are on the same orbit or have "locked" periodic orbits with one another.

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