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Theme 10 – Leftovers: Comets ASTR 101 Prof. Dave Hanes Why “Comet”? From the Latin cometes, (and the Greek κομητης ) meaning “wearing long hair.” Some Early Interpretations Aristotle (350 BC): gases rising up into the atmosphere and igniting Ancient Chinese: celestial omens in the heavens, marking important events such as the death of kings Likewise in Europe until ~1600: "When beggars die there are no comets seen; The heavens themselves blaze forth the death of princes." Shakespeare, in Julius Caesar Historical Renderings the Bayeux Tapestry, shortly after 1066 AD Giotto’s “Adoration of the Magi” (1305) Halley’s Scientific Contribution Looked at historical records of many old comets, concluding that three of them (1531, 1607, and 1682) were the same one, making return visits. Using Newton’s [new] laws, he boldly and correctly predicted its return in 1758! (He did not live to see it; he would have been 102.) https://www.youtube.com/watch?v=L1SycRpYH3k Near the Sun The comet becomes bright because frozen material evaporates outward from the nucleus. Then n n the huge coma (bigger than the Earth) and the big tail (millions of km long) reflect a lot of sunlight, and the gas also fluoresces, like a Neon lamp, absorbing energetic solar ultraviolet radiation and re-emitting it in the visible. The Nucleus Whipple (in the 1950’s): “Dirty snowballs” about 10km in diameter Pebbles in a matrix of frozen ices (water, ammonia, methane, ‘dry ice,’…) Animal Tails vs Comet Tails Why Two? One tail consists of ions (that is, charged particles – single atoms or simple molecules). They are low-mass, so they are readily pushed straight out, directly away from the sun, at high speed. The other tail is made of dust and pebbles, small solid lumps. They are more massive, and move more slowly. This often results in a curved tail lagging behind as the comet moves along its orbit. Discovering Comets These days, astronomers carry out automated searches for new objects using telescopes equipped with sensitive electronic detectors. The role of the dedicated amateur has been much diminished! In the last 15 years, almost 2400 comets have been discovered – most of them very faint, and only 72 of them by amateurs. Famous Finders: the Shoemakers, and David Levy Gene Shoemaker was the first to persuade scientists that lunar craters are from impacts, not volcanoes The Fate of Comets: 1. Disruption by Sunlight Every time a comet passes the sun, some of its icy material evaporates and is lost into space (hence the coma and tail). Eventually, all that icy material is gone and only bits of rubble (pebbles, rocks) remain. The comet slowly breaks apart. Clearly, comets cannot last forever! (Comet Halley has an expected lifetime of ~30,000 years -- still many orbits to go!) The Fate of Comets: 2. Orbits Perturbed by Gravity This can lead to ejection from the Solar System, or collisions with planets or the Sun: https://www.youtube.com/watch?v=J0d-mwJsgQs A Tidally-Disrupted Comet www.ing.iac.es Here, the disrupted Comet Shoemaker-Levy – with its pieces redirected to an eventual series of collisions with Jupiter. Details Hard to Discern The Jovian Impact (1994) Puzzle: Why do we still see comets?? Answer: there is steady replenishment, requiring n n a mechanism for injecting new comets; and a source (a ‘reservoir’) of primitive comets The sources are: n n The Kuiper Belt, and The Oort Cloud 1. The Kuiper Belt [an artist’s rendition] Note the tilted, eccentric orbit of Pluto – very different from the orbits of the eight inner planets. Properties of the Kuiper Belt n n n n n beyond the orbit of Neptune flattened (like the Solar System itself) contains many billions of tiny ice lumps – pristine comets that have never yet approached the sun also contains some larger Kuiper Belt Objects (KBO’s) the best-known of these is Pluto! 2. The Oort Cloud - much farther out, surrounding the Solar System Comet Replenishment: a ‘Nudge’ Occasionally, Oort Cloud or Kuiper Belt comets may have their orbits ‘perturbed’ by the gravity of a nearby passing star, an outer planet, or one of the larger Kuiper Belt Objects. (A typical comet is only about one trillionth of the mass of the Earth, so they are easily tweaked!) The object’s new orbit may, by chance, take it inward, towards the Sun. What Then? The Influence of Jupiter Birth to Death n n n n After formation in the original Solar System nebula, a cometary nucleus may spend billions of years in the Oort Cloud or the Kuiper Belt Some small gravitational perturbation directs it inward The gravity of an inner planet (most likely Jupiter) changes its orbit, and it is captured into an orbit of much shorter period Repeated passages around the sun fairly quickly lead to its destruction Late in a Comet’s Life: Spaceplace.nasa.gov The Composition of Comets We can learn about the composition of comets by studying the light they emit when they are heated by the Sun. This spectrum, for instance, reveals the presence of compounds of O, H, C, N -- the common elements. Learning More With the coming of the space age, we have developed the ability to visit comets in the inner Solar System, to explore their structure in detail. We will consider three examples: n n n ‘fly-by’ missions to Comet Halley (1986) the ‘Deep Impact’ mission to Comet Tempel (2005) the Rosetta probe and Philae lander (2014) 1. Visiting Halley’s Comet (1986) One Big Problem Halley’s Comet has a retrograde orbit. Limited Goals: the Giotto Probe The Image and Interpretation (note the comet’s size!) 2. Deep Impact (2005) The objectives: n send a space probe out to Comet Tempel n travel alongside it for a while, and send back pictures n n project a large solid object in the path of the comet so that the comet runs into it see what kind of material comes flying off the surface of the comet to learn about its rigidity, structure and nature Impact! http://www.astro.queensu.ca/~hanes/ASTR101-Fall2015/ANIMS/Tempel.mp4 What Did We Learn? Comet Tempel is much as we imagined, but may contain somewhat more fluffy dust particles and a bit less icy material than had been thought. The spectra revealed the presence of silicates (like sand on Earth) plus the other common elements. In other words, no surprises, but rather a fine-tuning of our understanding. This experiment was a great success, but we really need to land on and study a comet in detail: the Rosetta probe! 3. The Rosetta Project (2014) n n n n Send a probe out to Comet Churyumov-Gerasimenko Put the probe into orbit around the comet, travelling along with it, and survey its surface in detail Send a lander (Philae) down for a ‘soft’ landing on the comet Experiment on the material of which the comet is made Artist’s impression: www.cbc.ca Why “Rosetta”? 3.bp.blogspot.com ` en.wikipedia.org The Actual Ten-Year Path, Beautifully Pre-Planned (by design, the probe skims past other interesting objects en route!) wctechblog.com Closeup Images on arrival surface details (from the orbiter) The Size of the Comet (compared to Toronto) harrisonruess.com Some Problems The Philae lander indeed reached the surface. Unfortunately, it bounced and eventually wound up settling in a shaded area next to a vertical wall. This limited the available solar power and thus the time available for direct experiments (the batteries ran down without recharging). Still, a Great Success! Visit the mission website for the latest news http://www.esa.int/Our_Activities/Space_Science/Rosetta A Later Portrait Jets of gas are produced as the comet slowly nears the Sun and heats up. Philae came back to life (more sunlight!).