Where's Pluto? How to See it Through A Telescope

With NASAs New Horizons probe zeroing in on Pluto, due to pass it on July 14, attention of astronomers all over the world is focusing in on Pluto.

Lets leave aside the question of whether Pluto is the smallest planet of the Sun or the largest of the Kuiper Belt Objects, and agree that it is an interesting and mysterious member of the solar family.

Many amateur astronomers are interested in seeing Pluto with their own telescopes, and this is what we will discuss here. Pluto is at present around 14th magnitude, requiring a telescope with at least 8 inches (200mm) aperture to be seen. The good news is that it is traveling in front of a rich part of the Milky Way, so there will be plenty of guide-posts among the stars to help you find it. The bad news is that it is easily lost amongst those stars, because it will look no different from a 14th magnitude star.

With Starry Night, I have plotted a series of charts zooming in on this tiny target. The first chart is what you will see with naked eye and binoculars at 3 a.m. this week: the familiar teapot of Sagittarius. Use Ascella and Nunki in the handle of the teapot to locate the two 4th magnitude stars Omicron and Xi2 in your telescope.

With naked eye and binoculars, locate Pluto in relation to the well-known teapot asterism of Sagittarius. It is close to the stars Chi2 and Omicron Sagittarii, just north of the handle of the teapot.  Credit: Starry Night software.

Switch to a low power eyepiece to see the view in the second chart. To give you some idea of scale, this chart shows the position of the New Horizons probe, although it is too faint to be visible in even the most powerful telescopes on Earth.

With a low power eyepiece in your telescope, zero in on Xi2 and Omicron Sagittarii. Credit: Starry Night software.

Notice the wide triangle of 9th magnitude stars just below Plutos location which points to it. The left two stars of the triangle point to a wide pair of stars at about 10th magnitude, and these will serve as a reference to locate Plutos position in the third chart.

This chart shows the position of Pluto for the next eight nights, as seen in a high-power eyepiece. The left-most dot, labeled Pluto, is its position tonight at 3 a.m., the rightmost dot, its position on June 4. Remember that the date changes at midnight. Credit: Starry Night software.

The brown dots in this chart show Plutos position at 3 a.m. EDT on the nights of (from left to right) May 28 through June 4. These dates are for the second half of the night (after midnight), when the date has changed to the next days date.

Pluto will resemble a tiny star, and the only way to make sure you are looking at the right star is to make a careful plot of the stars in the field. Comparing positions the next night will tell you for sure which star is Pluto: Its the one that has moved.

So, to positively identify Pluto, is essential to observe it on at least two successive nights.

Because of the great interest in Pluto with the impending fly-by of New Horizons, Simulation Curriculum has released a free app for iOS and Android called Pluto Safari. This will be updated with new information as the fly-by approaches.

If you'd like to follow along with NASA's New Horizons Mission to Pluto and the Kuiper Belt, please download our FREE Pluto Safari app.  It is available for mobile devices. Simulate the July 14, 2015 flyby of Pluto, get regular mission news updates, and learn the history of Pluto.

Simulation Curriculum is the leader in space science curriculum solutions and the makers of Starry Night, SkySafari and Pluto Safari. Follow the mission to Pluto with us on Twitter @SkySafariAstro, Facebook and Instagram

Pluto Is A Planet, And So Is Eris

Is Pluto a planet?  What is a planet, anyhow?  We hope you’ll agree that the IAU's current answers to these questions are unclear and confusing.  Here, we propose clear and unambiguous answers to these fundamentally unclear problems.  Above all, we hope you have fun with the debate, no matter what side of it your heart may lay on.

The Planet Definition Mess

 As astronomers began to discover objects similar in size to Pluto, culminating with the discovery of Eris in 2005, it quickly became clear that if Pluto was a planet, so should Eris.  And if Eris was a planet why not some of the other newly discovered  objects. Our solar system might have dozens of planets.  One camp felt that a line needed to be drawn somewhere, and another camp felt that the newly discovered objects should be added to the list of solar system planets.

 

Illustration of the relative sizes, albedos, and colours of the largest trans-Neptunian objects.

Illustration of the relative sizes, albedos, and colours of the largest trans-Neptunian objects.

In 2006 the International Astronomical Union (IAU) met with the intention of solving the debate once and for all.  The goal was to come up with a definition for “planet”, which had never been done before.  After many days of contentious debate, the IAU passed the following resolution:

RESOLUTION 5A

The IAU therefore resolves that planets and other bodies in our Solar System, except satellites, be defined into three distinct categories in the following way:

(1) A "planet" is a celestial body that (a) is in orbit around the Sun, (b) has sufficient mass for its self-gravity to overcome rigid body forces so that it assumes a hydrostatic equilibrium (nearly round) shape, and (c) has cleared the neighbourhood around its orbit.

(2) A "dwarf planet" is a celestial body that (a) is in orbit around the Sun, (b) has sufficient mass for its self-gravity to overcome rigid body forces so that it assumes a hydrostatic equilibrium (nearly round) shape [2], (c) has not cleared the neighbourhood around its orbit, and 

(d) is not a satellite.

(3) All other objects, except satellites, orbiting the Sun shall be referred to collectively as "Small Solar-System Bodies".

This is a poor definition that has only served to add more confusion.  With resolution 2c,  “has cleared the neighborhood around its orbit”, the IAU is trying to express that a planet should be the dominant gravitational force in its local region of the solar system.  That's not an unreasonable position.  Certainly the Earth and Jupiter are the dominant objects in their local regions.  But have any of these planets actually "cleared the neighborhood" around their orbits?  No.  Pluto is still clearly in Neptune's "neighborhood".  For that matter, Jupiter has two well-known groups of asteroids, the "Trojans", which lead and follow Jupiter along in its orbit.  For that matter, the Earth hasn't quite "cleared the neighborhood" around its orbit, either, as anyone who was near Chebalyink, Russia on Feb 15th, 2013 or Tunguska, Siberia on June 30th, 1908 can attest to.  So are Earth, Jupiter, and Neptune the dominant gravitational objects in their local neighborhoods?  Yes.  Have they "cleared their neighborhoods"?  No.

The Thousand Kilometer Rule

 Here is what the IAU should have resolved in 2006:

 (1) A "planet" [1] is a celestial body that (a) is in orbit around the Sun, (b) has a maximum surface radius greater than 1000 kilometers.

 (2) All other objects orbiting the Sun shall be referred to collectively as "Small Solar-System Bodies".

 "But that's completely unscientific" you say. "Why 1000 kilometers?  Why not 1200, or 750?"  I submit to you that the precise definition of a planet as an object at least 1000 kilometers in radius is no less "scientific" than the definition of a "kilometer" as being a unit of distance equal to 1000 meters, or a "degree" being 1/360th of a circle.

 Here is a list of the largest known objects orbiting the Sun, and their radii in kilometers:

Jupiter - 69,911
Saturn - 58,232
Uranus - 25,362
Neptune - 24,622
Earth - 6,378
Venus - 6,052
Mars - 3,390
Mercury - 2,440
Pluto - 1,184
Eris - 1,163
Makemake - 715
Haumea - 620
Quaoar - 555
Sedna - 498
Ceres - 475
Orcus - 458

By the 1000-kilometer definition, all eight classical planets would remain planets.  As would Pluto, and we add Eris.  The solar system would have exactly ten planets. Those fond of keeping Pluto's planetary status for historical reasons would retain its dignity.  And elevating Eris to a first-class planet would be an honorable nod to the cutting-edge astronomers whose work led to a need for this new definition in the first place.

And as to the "cleared the neighborhood" part of the definition?  This it the most unclear and least popular part o the IAU's 2006 definition.  It's best dealt with by being eliminated entirely.  The end game is to define the term "planet" in a manner that's simple, understandable, and satisfying.  The 1000-kilometer rule does this aptly.

If you'd like to follow along with NASA's New Horizons Mission to Pluto and the Kuiper Belt, please download our FREE Pluto Safari app.  It is available for iOS and Android mobile devices. Simulate the July 14, 2015 flyby of Pluto, get regular mission news updates, and learn the history of Pluto.

Simulation Curriculum is the leader in space science curriculum solutions and the makers of Starry Night, SkySafari and Pluto Safari. Follow the mission to Pluto with us on Twitter @SkySafariAstro, Facebook and Instagram