what process do you think formed reuyl crater
6. This process is comparable to the transition from alluvial fan to debris flow-like evidence reported in the Harris crater, . Few, if any, crystals will be visible. The inner walls of the crater have collapsed to form a series of step-like terraces, and a central peak is visible in the center of the image. Ma'adim Vallis is the channel in the southeast part of the photograph, marked C. Which of the four processes do you think formed Ma'adim Vallis? We can also see an inverted channel system, possibly ponded toward the southwest. The insets in the black boxes show close-ups of some of the structures that lava can form: (left) branched channels, (middle) a snaking channel and (right) rootless vents; the rootless vents are also marked by yellow spots on the main image. A mystery concerning water on Mars is "Where did it go?" On impact of a cosmic body, shock waves start from the contact point and propagate into both the underground target rocks and into the impactor. A complex crater in the northern region of Mars. Fig. Explain why you believe the way you do. The excavation stage ends on release from shock and when the displacements by excavation cavity formation and downwards/sideward compression reach an end. Very similar, but still different, therefore two different minerals. endobj Craters come in two flavors: those that aren't caused by asteroids or comets, impact craters, are formed by powerful volcanic explosions. Scientists record the size and number of impact craters and how eroded they are to determine the ages and histories of different planetary surfaces. endobj Cross sections of simple and complex impact craters. This thick mantle of dust creates the appearance of snow covered mountains in the image. During the final modification phase, the remainder of ejecta partially refills and rings the crater site, and debris forms a rich mineral composite called breccia. Mass movement is the displacement of material by landslides or slumping through the action of gravity. [ 11 0 R] The modification stage of impact cratering. Procedures and Lab Questions to be Turned In: Part 1 Olympus Mons is a shield volcano 600 km in diameter, towering 25 km above the surrounding plain. This of course is primarily a matter of energy related with the projectiles mass (and therefore density) and impact velocity, and, subordinately, also a matter of the target lithology. Three processes help Earth keep its surface crater free. JI,ZbXr}n9=^,eIgtU_=F#-K}_^(qyk1bZe|}elK)&Hc:GVtOd~Y@0IA$2i hvF~/_?g@-)(|#)s5.eK%x]G4;kY|^B8I(JY4+Tl7l1Q)>.ux92BfiYnWy%:./#5*j?hv`SEzY8D7\I&RdEO)I[G*ZGy7HjkvKXE@tiYrG:f3' uoiTK"EF]d[59qqgrP~ "UJ|gmPBO(+aS7Gj{k}xeET]A EIx-X]28dy,}Isx.cepq 7rbr:^v4>iHJgEqA&`DA.FYle1}7#W;G-+h The more mass it has the bigger the impact. Image credit: NASA. Color is often an indicator of the composition of a rock or mineral and can be effectively used to identify the composition of most igneous rocks. But Earth has several things the moon doesnt an atmosphere and liquid water that cause erosion. When an asteroidal or cometary object strikes a planetary surface, it is traveling typically at several tens of kilometres per secondmany times the speed of sound.A collision at such extreme speeds is called a hypervelocity impact. }v)He|/7rw9>{W9qM~Zs.|9q7_9'o2p3kie V;\UXF}w1l`p!U,9#H{wx 0 ~ endstream endobj 103 0 obj 294 endobj 67 0 obj << /Type /Page /Parent 59 0 R /Resources 68 0 R /Contents [ 75 0 R 77 0 R 79 0 R 86 0 R 88 0 R 93 0 R 96 0 R 99 0 R ] /MediaBox [ 0 0 612 792 ] /CropBox [ 0 0 612 792 ] /Rotate 0 >> endobj 68 0 obj << /ProcSet [ /PDF /Text /ImageB ] /Font << /F2 85 0 R /F3 71 0 R /F4 91 0 R /F9 69 0 R /F12 83 0 R >> /XObject << /Im9 95 0 R >> /ExtGState << /GS1 98 0 R /GS14 101 0 R >> >> endobj 69 0 obj << /Type /Font /Subtype /Type1 /Name /F9 /FirstChar 32 /LastChar 255 /Widths [ 343 384 500 686 686 975 848 250 352 352 483 686 343 392 343 579 686 686 686 686 686 689 686 686 686 686 343 343 686 686 686 595 740 781 677 660 752 550 542 842 803 324 489 758 495 983 881 887 661 887 680 616 533 778 761 1117 789 714 707 350 579 350 686 500 402 682 682 483 682 610 388 677 661 302 302 688 302 989 661 662 682 682 453 513 360 659 623 996 712 654 559 352 579 352 686 343 781 781 660 550 881 887 778 682 682 682 682 682 682 483 610 610 610 610 302 302 302 302 661 662 662 662 662 662 659 659 659 659 686 400 686 686 686 686 686 651 800 800 940 402 604 0 1026 887 0 686 0 0 686 659 0 0 0 0 0 409 410 0 940 662 595 384 686 0 686 0 0 603 603 1000 343 781 781 887 1140 1022 500 1000 628 628 372 372 686 0 654 714 194 686 354 354 679 690 686 343 338 594 1460 781 550 781 550 550 324 324 324 324 887 887 0 887 778 778 778 302 590 549 603 539 402 457 380 539 350 590 ] /Encoding /MacRomanEncoding /BaseFont /Futura-Bold /FontDescriptor 73 0 R >> endobj 70 0 obj << /Filter /FlateDecode /Length 21345 /Length1 28684 >> stream Impact Craters. endobj On a world with an atmosphere, the object is heated by friction with the blanket of air. Small craters often are simple bowl-shaped depressions. Roter Kamm Crater. Not a model for impact crater formation. On Earth, impact craters are harder to recognize because of weathering and erosion of its surface. Dunite is composed almost entirely of the mineral olivine which usually contains both iron and magnesium. u u u # ( u u u u u u u u u : HNRT 227 Laboratory Experiment #8 with Ms. Crowell FALL 2015 The Rocks of Earth and the Surface of Mars Purpose: To understand the rocks of terrestrial planets and how they are formed, and to interpret and analyze the surface of planets and what that teaches us about the conditions that exist today and may have existed eons ago. Are the craters you observe older or younger than the valleys? Both are black in color, and is composed of carbon. 13). Through a combination of these principles, the relative ages of geologic features can be determined, and a sequence of geologic events developed. This suggests that the transient crater collapse in the modification stage is largely driven by gravity (gMoon ~ 1/6 gEarth). Part of the ejecta of the larger crater was molten, melted rock and formed flows. Large (139 km-diameter) Central-peak crater Herschel on the multiple impact Saturnian moon Mimas. Fig. Justify your answer? The Crater Maker can then drop the rock, and the Measurer . Fig. Around its base is a steep cliff as high as 6 km. Beware that even though an igneous rock may have a felsic composition (light color), the rock can contain dark colored minerals. 4 0 obj Fortunately determination of the exact chemical composition is not necessary. Scientists estimate that Earth and the other terrestrial planets are struck by, on average, five asteroids less than 2 kilometers (a little over 1 mile) across every million years. Limestone may or may not contain fossils. M8 aR Fig. Determination of the actual chemical composition and crytalline structure of a mineral is difficult without the proper equipment. 5. Smaller valleys join the main east-west chasm. <> Albite has a chemical composition of NaAlSi3O8, while anorthite's chemical compositon is CaAl2Si2O8. Southern cratered highlands. (Viking image 645A57) 6. 3 0 obj Near the footprint in the above picture, you can see many small "pock-marks." These marks are the craters made by microscopic particles that hit the surface moving at speeds of several kilometers per second. In an introductory level lab it is impossible for us to determine these two aspects of a mineral. These processes expose old, long-buried materials, making them accessible to probes and . These are impact craters, each of which was formed when an asteroid or comet collided with the Moon's surface. Such outbursts can be violent enough that once the eruption is over, the volcano collapses in on its empty vacant magma chamber and forms a caldera, or volcanic crater. a depression formed by an impact (as of a meteorite). We see that shock wave and rarefaction wave propagation are essential in the formation of a meteorite impact crater. 1}bRX12AMAWQe'=u"tP]]!|SdX"uk3&~m?B?_OuG+ s6S x> PY4/'!~OFZUT=ayZBxY`=j 0 "(_Cye@2UGDkA;$V+ "+.m The first reason is that Earth's surface is continuously changing because we live on a geologically active planet. Ma'adim Vallis is the channel in the southeast part of the photograph, marked C. Which of the four processes do you think formed Ma'adim Vallis? Erosion is the dominant geologic process acting on Mars today. These fragments or clasts can be very fine (ash) or coarse (lapilli) or very coarse (bombs and blocks). In impact research, the subdivision of the crater-forming process into three main stages has generally been accepted. You will have to calculate an approximate image scale from the height of the peak in the foreground.) 4. The darker material is quartz sand, combined with a small amount of cornmeal to produce a minor amount of cohesion between sand grains. These chunks begin to form at the top layer of the lava, which is cooling the fastest. Download Planetary_Geology PDF for free. Calcite readily reacts with a small drop of HCl. Reuyl crater is at the southern edge of a region known to be blanketed in thick dust based on its high albedo (brightness) and low thermal inertia values. Image source: NASA. A compressive shock pulse is not only reflected at the free target surface but also always when it impinges on a boundary of material with reduced impedance (equivalent to the product of density and sound velocity) where part of the energy is reflected as a rarefaction pulse. A stone-into-mud crater demonstrates the difference between it and a hypervelocity crater (Fig. Approximately 80% of Earth's surface is less than 200 million years old, while over 99% of the Moon's surface is more than 3 billion years old. d. Maadim Vallis is the channel in the southeast part of the photograph, marked C. Which of the four processes do you think formed Maadim Vallis? Schistose foliation is composed of larger minerals that are visible to the unaided eye. Details from the Ascraeus channel (red), meandering across the surface of Mars. Impact craters are relatively shallow, so these "dents" in Earth's rocky . Determine and record the diameter of Apollinaris Patera? And the trump card, plate tectonics, that recycles much of the planets crust over millions of years and smooths away blemishes left by cosmic impacts. 9). Typically, these rocks split along parallel, planar surfaces. b.The process that I think formed apollinaris patera is Volcanism, this is because of its characteristics, such as the radial flow patterns, and basal scarp, a craters, large flow trending to the south, and the less complex caldera.. c.The process that I think formed Reuyl crater, is an Impact, the reason for this is by the ejecta pattern and central peak. endobj This "period of heavy bombardment" ended by about 3.9 billion years ago. Computations suggest craters that were formed by a low-density projectile are flatter and have distinctly larger diameter ratios (compared to the above-mentioned one-to-ten ratio of projectile and crater diameter). As a rule of thumb, older surfaces have been exposed to impacting bodies (meteoroids, asteroids, and comets) for a longer period of time than younger surfaces. 2 0 obj (Hint: the region slopes to the north.) The so-called Meteor Crater in Arizona previously held the record for largest impact crater less than 100,000 years old; it's about 49,000 to 50,000 years old and measures 0.75 miles (1.2 km) in . endobj What process do you think formed Reuyl crater (marked B on Figure 5)? Tychos diameter is 85 km. 23. Porphyritic texture is composed of crystals of two different sizes. Fig. Sand is clasts between 1/16 and 2 mm in size, and gravel is greater than 2 mm. The high-speed impact of a large meteorite compresses, or forces downward, a . Justify your answer. Something we dont understand very well on the geological side (of crater formation) is, we still find it difficult to determine the trajectory of impacting objects for most impact craters, Kring said. endobj The now existing bowl-shaped structure surrounded by an uplifted rim and a blanket of ejected material is termed the transient crater obviously indicating a continuation of the impact cratering process arriving in the modification stage. rought The right side of Figure 12.4 shows a rift zone on Venus. 2. Enormous collapse calderas are found on the summits of each of the volcanoes. Consider the relationship between Ma'adim Vallis and Gusev, the 160 km . The moons surface is riddled with craters ranging in size and structural complexity, and billions of years ago before life emerged, the Earth looked the same way. Typically, materials from space hit Earth at about 20 kilometers (slightly more than 12 miles) per second. Explain their similarities and their differences. Nrdlinger Ries. endobj <> HYPERLINK "../Honors227/Images/10_1.jpg"Figure 1. However, impacts still occur across our solar system, but at a reduced rate. Typically the large crystals (phenocrysts) are visible while the smaller crystal are not (referred to as groundmass). Generally speaking, large impact craters appear to be morphologically flat structures although the impact signature rock deformations, shock metamorphism may extend to considerable depths. Ma'adim Vallis (labeled C) is the channel in the southeastern part of the image. These are not commonly tested for in an introductory lab. Sedimentary rocks are rocks composed of sediment. <> The circular shape is due to material flying out in all directions as a result of the explosion upon impact, not a result of the impactor having a circular shape (almost no impactors are spherical). The crater has been extensively eroded, but is believed to originally have been as much as 300 kilometers (185 miles) across. 10. Similar to some river systems on Earth, these Martian channels have a branching pattern. Thank you for your participation! For the following, you will use the knowledge from previous questions to identify Martian landforms and describe the geologic processes that created them. Impact shock waves are characterized by an instantaneous onset of extreme pressures (up to the order of megabars) and extreme temperatures (up to 10,000 degrees or more) on release of the pressure. A good example is diamond and graphite. The impact sprays material ejecta out in all directions. More about the doublet crater. I noticed the young crater has an odd shape, non-circular, almost diamond-shaped. Sedimentary Rock Identification ChartTEXTUREGRAIN SIZECOMPOSITIONROCK NAMEClastic2 mmrock fragments, quartz, feldsparConglomerate1/16 - 2 mmquartz, feldsparSandstone<1/16 mmquartz, clay mineralsMudstone1/16 mmfeldspar, quartzArkoseChemicalcalciteLimestonesilica (quartz)ChertgypsumRock GypsumhaliteRock SaltBiologicorganic material, plant fragmentsBituminous Coalcalcite, shell and skeletal fragmentsCoquinacalcite with some fossilsFossiliferous Limestone Metamorphic rocks are rocks that have undergone a change from their original form due to changes in temperature, pressure or chemical alteration. largest craters on Europa, Ganymede, and Callisto formed in an icy crust (Io's crust is dominated by silicates, see Chap ter 14). On relieving of pressure, there is an elastic rebound at the crater floor now hosting a layer of brecciated rocks. This impact is thought to have triggered fires and tsunamis and created a cloud of dust and water vapor that enveloped the globe in a matter of days, resulting in fluctuating global climate changes. (Viking MDIM mosaic 211-5360) 1. The term transient crater means the cratering process continues after the excavation flow comes to rest. Below you will find a chart which defines the physical properties and provides the means for determining the physical property of a mineral sample. Moreover, the principles of superposition and cross-cutting relations indicate that a feature which at least partly covers another feature is the younger. They leave very characteristic features. (Hint: remember that wind direction refers to the direction from which the wind blows.) The somewhat blurred contours are not surprising giventhe impact happened into water and a soft, water-saturated target rock. 11. Check Pages 101-150 of Planetary_Geology in the flip PDF version. Some of this tiny debris makes it to Earth's surface and is mixed with soil and ocean sediment. Fig. <> Metamorphic Rock Identification ChartTEXTUREFOLIATIONCOMPOSITIONTYPEPARENT ROCKROCK NAMEFoliatedslatymicaRegionalMudstoneSlatephylliticquartz, mica, chloriteRegionalMudstonePhylliteschistosemica, quartzRegionalSlateSchistschistoseamphibole, plagioclaseRegionalBasalt or GabbroAmphibolitegneissic bandingfeldspar, mica, quartzRegionalSchistGneissNon-FoliatedcarbonContact or RegionalBituminous CoalAnthracite Coalquartz, rock fragmentsContact or RegionalConglomerateMetaconglomeratecalciteContact or RegionalLimestoneMarblequartzContact or RegionalSandstoneQuartzite Mars Surface Introduction In many ways Mars is similar to Earth. Moon Mimas compositon is CaAl2Si2O8 debris makes it to Earth 's surface crystals will be.... Along parallel, planar surfaces.. /Honors227/Images/10_1.jpg '' Figure 1 southeastern part of the crater-forming process into three main has. 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