PTYS/ASTR 206 – Section 3 – Homework 6 – Assigned 4/23/09 NAME:______________________________________________(PRINT CLEARLY) • Homework is due in class on Thursday April 30th. • Late homeworks can be turned in class on Tuesday May 5th for 50% credit. • Homeworks turned in later than this receive 0%. • Students are encouraged to discuss approaches to solving homework problems with each other; however, all work submitted must be the student’s own. Do not turn in identical homeworks! See the syllabus for more information. ______________________________________________________________________ Hint: Each of these questions should be quick to answer. If you find yourself engaged in a long chain of complicated reasoning or more than a few lines of math then something is probably wrong! Make sure to start this early and talk to the TA or myself with any questions. Question 1: Mass of Pluto Kepler’s third law applies to Charon orbiting Pluto, but not in as simple a way as it applied to planets orbiting the sun. In the latter case we could directly relate semi-major axis (in AU) to period (in years). This time we’ll write Kepler’s 3rd law out in full and use meters and seconds instead of AU and years. When we do this it reads: a3= 1.7 1012MP +CP2 Let’s forget for the moment that Pluto is orbiting Charon as well as Charon orbiting Pluto. Look up Pluto and Charon’s separation (that’s the ‘a’ in the above formula) and period (that’s the ‘P’ in the above formula). What is the combined mass of Pluto and Charon (MP+C)? [Make sure the separation and period you use are in meters and seconds respectively]PTYS/ASTR 206 – Section 3 – Homework 6 – Assigned 4/23/09 Pluto’s radius is twice that of Charon. How much higher is Pluto’s volume than Charon’s? What is Pluto’s volume as a fraction of the total volume? If both objects have the same constant density then what is Pluto’s Mass on its own? Question 2: Orbit of Pluto and Charon Charon orbits Pluto every 6.4 days. Pluto and Charon also both rotate every 6.4 days. How would Charon appear to move to an observer on Pluto?PTYS/ASTR 206 – Section 3 – Homework 6 – Assigned 4/23/09 The Pluto/Charon system is thought to have formed in a collision (much like the Earth/Moon system). If something were to hit Pluto today and Pluto’s rotation were to speed up then what would happen to the orbit of Charon? What would happen to Pluto’s new rotation rate? What is the angular size of Charon as seen from Pluto? What is the angular size of the sun as seen from Pluto? Could an observer on Pluto see a total solar eclipse? Question 3: Triton Why do we think that Triton is a captured object that didn’t form alongside with Neptune?PTYS/ASTR 206 – Section 3 – Homework 6 – Assigned 4/23/09 The size of Triton’s orbit changes by 10cm/year. From a sketch of Triton’s orbit explain why tidal forces cause the orbit to get smaller. Start by drawing Neptune, Triton’s orbit and the tidal bulge on Neptune’s surface. We saw in the last homework that the smallest orbit that a moon can have before it can no longer hold itself together by self-gravity is called the Roche limit and given by: 2.4Pm 13RP where Rp is the radius of the planet and the p and m are the densities of the planet and moon respectively. If the density of Neptune is 1640 kg m-3 and Triton is 2060 kg m-3 then how big is this distance?PTYS/ASTR 206 – Section 3 – Homework 6 – Assigned 4/23/09 Triton currently orbits at 355,000 km. If its orbit continues to shrink at 10cm/year then how long will it be before it passes inside Neptune’s Roche limit? What will future space tourists flock to see after this happens? Question 4: Kuiper Belt Objects What are plutinos? How do they differ from the cubewanos? A large Kuiper belt object named Ixion has a semimajor axis of 39.68 AU. What is its orbital period? Neptune’s orbital period is ~165 years, is Ixion a plutino or a cubewano? [You can use the simple form of Keplers 3rd law here]PTYS/ASTR 206 – Section 3 – Homework 6 – Assigned 4/23/09 Why is Pluto no longer considered a planet? Changing Pluto’s status was a little controversial; do you agree with the decision? Question 5: Comets One theory for where all Earth’s oceanic water comes from is that it was delivered by comets early in solar system history. If a comet is a sphere 10km in diameter how many cubic meters of water does each one deliver (let’s ignore the difference in density between ice and water and all the other junk contained in the comet)? Earth’s oceans cover 75% of the globe and are 4km deep how much water do they contain (this is very similar to question 3 on HW 5)? How many comets do you need to deliver this much water?PTYS/ASTR 206 – Section 3 – Homework 6 – Assigned 4/23/09 Comet Hale Bopp entered the inner solar system (perihelion was ~0.9 AU) with an inclination of almost 90° back in 1997 (it will return in 4530). Based on the inclination of its orbit, where did this comet likely originate? This comet is likely to survive quite a long time in this orbit. Why do you think that is? [You could try and sketch a picture of the solar system and Hale-Bopp’s
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