<wbr id="ull0b"></wbr>
    1. <form id="ull0b"></form>
      1. 1046129888

        1046129888

        artist's impression of the lost planet

        Photo by: Dotted Hippo

        Dotted Hippo

        Why Does Pluto Have Such a Weird Orbit?

        Pluto is the black sheep of the planets in our solar system and it looks like astronomers aren’t sure how long Pluto will remain in its present orbit.

        February 18, 2020

        Back in the day, before Pluto got demoted to dwarf planet status, we learned that our solar system had nine planets. Eight of the planets had nice, neat little orbits that are nearly circular and all in a tidy little plane.

        And then there was Pluto--the oddball, marching to the beat of its own orbital drum and doing whatever the heck it wanted. Apparently it was too distant from the sun for anyone to bother correcting it and make it act like the planet that it was supposed to be.

        For starters, take its inclination, which is the word astronomers use to describe the tilt of a planet’s orbit. Relative to the average of the rest of the planets in the solar system, Pluto orbits at a jaunty angle of 17 degrees. This doesn’t sound like much until you compare it something like the Earth, which is a mere 1.5 degrees off. In fact, you can compare it to any other planet that you feel like and you’ll get the same result: the planets of our solar system do this, and Pluto does that.

        And then there’s the eccentricity. Planets don’t orbit around the sun in perfect circles, but in stretched ellipses. The amount of stretchiness of that ellipse is called, as you might have guessed, the eccentricity. An eccentricity of 0 indicates a regular circle, while an eccentricity of 1 means you’re in big trouble: your orbit has stretched so much that you’re on an escape trajectory from the solar system altogether.

        The Earth is a good little planet, with an eccentricity of only 0.016. Amongst the rest of the planets, the worst offender is Mercury with an eccentricity of 0.2. And Pluto? Well, to call Pluto eccentric would be an understatement. With an eccentricity of 0.25 (in other words, ¼ of the way to complete removal from the system), the stretchiness of its orbit is so exaggerated that it spends 20 of its 248-year orbit within the orbit of Neptune.

        160935031

        160935031

        Artwork of the dwarf planet Pluto (left) and its largest moon Charon. Pluto and Charon are so oriented that, twice every orbit (once every 124 years), they periodically eclipse each other as each world passes between the Sun and its partner. The illustration shows Charon casting a shadow on Pluto during such an eclipse. The last time Pluto and Charon eclipsed each other was during the six-year interval from 1985 to 1990. It won't happen again until 2103. The image also shows Hydra, the outermost of Pluto's two smaller moons, which were discovered using the Hubble Space Telescope in 2005.

        Photo by: MARK GARLICK

        MARK GARLICK

        Pluto’s orbit is prone to destabilization, but sometimes Neptune manages to calm it down. The two worlds are (for now, at least), locked in something called a resonance, where the period of one orbit is a simple multiple of the period of another orbit. In the case of stately Neptune and rascally Pluto, for every three orbits of the little odd world, the stately giant does two.

        This resonance keeps Pluto’s orbit regular (as weird as it is) over the course of millions of years. But things aren’t very stable over long time periods in the outer solar system, where the gravitational influence of our sun is nothing more than a passing flirtation. Astronomers aren’t exactly sure how long Pluto will remain in its present orbit – there are too many complexities to account for to build an accurate picture past 5 million years or so. There’s a decent chance that our distant descendants will wake up one day to find Pluto striking out for a journey amongst the stars…or crashing headlong into the sun.

        Like I said, Pluto does what it wants.

        #TeamPluto premieres Tuesday, February 18th at 11pm ET/PT on Discovery and Discovery Go.

        Paul M. Sutter

        Paul M. Sutter is an astrophysicist at The Ohio State University, host of Ask a Spaceman and Space Radio, and author of Your Place in the Universe.

        Next Up

        Why We'll (Probably) Never Be Able to Teleport

        For many of us, teleportation would be the absolute best way to travel. Imagine just stepping into a transporter and being able to go thousands of miles in nearly an instant.

        4 Reasons Why Earth is the Best Planet to Call Home

        Since 1970, folks from around the world have gathered together to celebrate Earth Day, an appreciation for all the good stuff we’ve got here on the Earth – and a reminder to try not to mess it up. But what’s so special about the Earth, anyway?

        Let’s Look for Water on the Moon

        NASA is headed to the moon, but this time it's in search of water. Astrophysicist Paul M Sutter shares what this means and why it's important.

        Farewell, Earth’s Mini-moon

        It's time to say goodbye to the mini-moon that's no bigger than your car.

        The Kuiper Belt: When Solar Systems Dance

        Pluto isn't alone after all. Besides being the home of Pluto, the Kuiper belt hosts dwarf planets, and smaller bits of rock and ice.

        Celebrating Hubble's 30 Year Legacy

        Three cheers for the Hubble! First launched in 1990 aboard the Space Shuttle Discovery, the storied space telescope is celebrating is thirtieth year in lonely orbit around the Earth.

        Voyager 2 is Really Far Out There, Man

        Currently Voyager 2 is about 11 billion miles from the Earth, and has been traveling at speeds of tens of thousands of miles per hour since its launch in 1977. Read more to see where it is now and what we've learned.

        That’s a (Weirdly) Big Black Hole!

        Recently astronomers identified a black hole near a star called LB-1 and they found out that the black hole is 70 times the mass of the sun. This is a mystery because the biggest black holes we can get from the deaths of the most massive stars are around 30 times the mass of the sun, so how did black hole get this big?

        Stuck at Home? Try Looking Up!

        In times of darkness and incertainty, opt for exploration of wonder in the skies.

        The Secret of Pluto’s Ocean

        When we think of an ocean, we don't necessarily think of Pluto. If we can’t see the liquid water, why do astronomers think it’s there?
        Related To:
        曰本真人做爰免费