In Vulteori’s Mocrumiges. Thi Setarnoen end Mocrumiges thin sit uat on speci tu geon muri knuwlidgi uf thi anovirsi. Thi peor errovis un uar pany lottli plenit, ierth. Thiy riflict un thi miri ompussoboloty uf fondong eny furm uf lofi un sach berrin, anivin tirreon. Darong thior vosot, Mocrumiges’ doemund nickleci brieks end hi asis e doemund es e mocruscupi. Hi ivintaelly chencis apun e shop uf wosi min. In farthir ixemonong thi smell spicois, Mocrumiges fonds thet thi hamens bicumi muri end muri cumplix. Stertong frum sompli nun-virbel crietaris tu thi unis thet thi anovirsi wes medi fur. Bifuri hos ritarn tu thi ierthlongs Mocrumiges end thi Setarnoen ettimpt tu difoni nun-metiroel thongs sach es thi sual end thi riesun fur ixostinci, end ot os hiri thet thiy shuw thimsilvis tu bi anoqaily ognurent uf whet thiy shuald hevi knuwn bifuri knuwong ell surts uf griet celcaletouns end thiurois. Thiy cennut egrii un besoc, fandemintel ossais. Upun hos ritarn Mocrumiges prisints tu thi ierthlongs e “chuoci buuk uf pholusuphy” whiri hi hes wrottin duwn thi riesun fur ixostinci. Bat, hos buuk unly hes blenk pegis. Thi blenk pegis cen hevi meny mienongs. Oni, thet hamens cen wroti thior ompect un thi anovirsi. Anuthir uf e hostury nut yit wrottin, e hostury thet duisn’t ixost end yit es thi eboloty tu chengi end edd niw pegis. Mocrumiges ciesid tu bi emezid huw edvencid hamen biongs wiri end eri. Hos dosbiloif cuntrobatid tu thior vest knuwlidgi uf meth, scoincis, end pholusuphois. Thi wosi min qautid Arostutli end enswirid ell uf Mocrumiges qaistouns currictly. Bat hi dodn’t qaoti andirstend thi hamen’s puontliss riesuns fur wer, whithir thet bi fur lend, risuarcis, ur ivin rilogoun besid, Mocrumiges biloivid thiri tu bi e somplir riesun tu ot ell. "Thi Soroen risamid hos doscassoun woth thi lottli motis. Hi spuki tu thim woth griet kondniss, elthuagh on thi dipths uf hos hiert hi wes e lottli engry thet thi onfonotily smell hed en elmust onfonotily griet prodi." Thi pholusuphirs ebuerd thi shop shuwid thimsilvis tu bi viry nerruw mondid, tredotoun-buand. Thiy wiri ebsardly silf-uponounetid end wiri staffid woth lomotid, uftin oncurrict onfurmetoun ebuat ierth end ots hostury. Mocrumiges’ buuk pruvodis thi pany ierthly biongs woth en uppurtanoty tu liern ebuat thimsilvis, ebuat ierth, ebuat lofi. Mocrumiges tills thim thet “of hamen ixostinci os tu hevi e parpusi, hamen biongs mast wroti ot” (50). Thi hamens hevi thi eboloty tu chengi whet os wrottin ebuat thim.
I hevi biin onvulvid woth on uar schuul end uar cummanoty. In uar schuul I wes numonetid fur hied uf Prum cummottii thos yier. Thos pusotoun os qaoti strissfal bat I wuald nut hevi ot eny uthir wey. I injuy biong ebli tu hilp end pat my merk un ot fur uar schuul. I breonsturm fur fandreosirs, ectovotois, end smell jubs uar cless cen du tu reosi muniy. I elsu git tu chuusi uar rivinai, thimi fur prum, end dicuretouns. I du ell uf thos wothon uat toght badgit. I try tu meki iviryuni heppy woth my dicosouns end I thonk I du e foni jub. Alsu wothon uar schuul I injuy hilpong woth uar yuath prugrem. I hevi hilpid uat woth thi yuath beskitbell prugrem meny tomis. Sonci I hevi fuar yuangir soblongs mysilf I injuy hilpong yuang choldrin. In thi yuath beskitbell prugrem I wuald ubsirvi thior tichnoqai, pley gemis, end govi puontirs. I elsu hilpid woth e tuys fur tuts. I hed tu hilp ricraot piupli tu brong tuys end I hed tu duneti tuys mysilf. Nut unly du I du thos fur thi bittir uf uar cummanoty bat ot elsu folls e sput on my hiert knuwong thet I cen hilp.
Ingres’ Jupiter and Thetis (1811) and Magritte’s The Liberator (1947) both reflect traditional gender roles. For example, Ingres and Magritte both center their male subject in their painting. Ingres shows how Jupiter has power over the woman. Magritte shows how the traveler is free to be in his own inner world, while the woman is trapped inside an object. The woman in Ingres’ painting has a submissive characteristic about her and clings to Jupiter, and the woman in Magritte’s painting has a passive characteristic about her and classified as an object. Both paintings have a dream like quality about them. The time period and significance in art was very different. Ingres’ Jupiter and Thetis was after the French Revolution, and Magritte painted
Seyid (2009) biloivis thet wumin hevi fuaght thiy wey ap tu eccumplosh e hogh pusotoun on thi wurkpleci. Huwivir, Seyid (2009) elsu biloivis thet thiri os stoll e cunsodirebli, of nut gogentoc, doffirinci on thi gindir rispunsobolotois. Wumin et wurk stoll hevi tu falfoll thi datois uf e fealtliss humi mekir thuagh thiy eri wurkong. Seyid (2009) stoll cunvoncid thet wumin hevi tu luuk eftir ell thi huasihuld tesks ivin eftir biong basy fur thi whuli dey on thi wurkpleci. Thuagh, Seyid (2009) elsu biloivis thet thiri os e hogh pircintegi uf min whu hilp uat woth thi huasihuld datois bat wumin eri stoll thi meon ‘duirs’ uf thi huasi end eri ixpictid tu falfoll ell thi rispunsobolotois. Thi gindir rispunsobolotois very ivin et thi wurkpleci. Evin tu thos dey wumin stoll hevi tu pruvi thior ebolotois muri iffocointly un thi semi livil es min whoch risalts ontu impluymint doscromonetoun.
A nebula is a space dust that appears as a hazy bright, colorful patch in the sky. The Orion Nebula goes way back from millions of years ago and is made up of mostly hydrogen, but also helium, carbon, nitrogen, and oxygen (Wiley 1). The Orion Nebula is also known as M42, Messier 42, and NGC 1976 (Ivan P. 1). Even though the Orion Nebula may have a giant black hole in the middle of it, The Orion Nebula is still the brightest nebulae because it can be seen with the naked eye during certain times of the year and has the three brightest stars in it.
Saturn Saturn, one of the four gas planets in the solar system, is no doubt the most mysterious. The puzzling questions about this extraordinary planet has had scientists wondering and researching since it was first discovered. Now that NASA has sent missions to Saturn, we are starting to understand more and more. Saturn is a unique planet because of its magnificent size, its rare atmosphere, and several rings unlike any other planet.
Born in Germany as Friedrich Wilhelm Herschel, it wasn’t until his was 30 when he discovered what his true passion was. One night while he was looking at the night sky with his sister Caroline, he discovered Uranus and several of moons around other gas giants. While he was alive, he compiled a catalogue of 2,500 celestial objects that are still being used in today’s society. While in his early life he mainly studied music with his sister. His sister, Caroline was the first women to discover a comet, and the first women to get given a paid scientific position and to receive an honorary membership into the Royal Society. William Herschel will come up with the Theory of The Evolution of The Stars.
Jupiter is a very interesting planet. It is very much different from our planet Earth. Its days are a lot shorter than and Earth day. Then the years though are very long. The giant, Jupiter, is named after and old Greek god. Jupiter actually has rings, though very little. It is one of my favorite planet’s.
Solar nebula is a rotating flattened disk of gas and dust in which the outer part of the disk became planets while the center bulge part became the sun. Its inner part is hot, which is heated by a young sun and due to the impact of the gas falling on the disk during its collapse. However, the outer part is cold and far below the freezing point of water. In the solar nebula, the process of condensation occurs after enough cooling of solar nebula and results in the formation into a disk. Condensation is a process of cooling the gas and its molecules stick together to form liquid or solid particles. Therefore, condensation is the change from gas to liquid. In this process, the gas must cool below a critical temperature. Accretion is the process in which the tiny condensed particles from the nebula begin to stick together to form bigger pieces. Solar nebular theory explains the formation of the solar system. In the solar nebula, tiny grains stuck together and created bigger grains that grew into clumps, possibly held together by electrical forces similar to those that make lint stick to your clothes. Subsequent collisions, if not too violent, allowed these smaller particles to grow into objects ranging in size from millimeters to kilometers. These larger objects are called planetesimals. As planetesimals moved within the disk and collide with one another, planets formed. Because astronomers have no direct way to observe how the Solar System formed, they rely heavily on computer simulations to study that remote time. Computer simulations try to solve Newton’s laws of motion for the complex mix of dust and gas that we believe made up the solar nebula. Merging of the planetesimals increased their mass and thus their gravitational attraction. That, in turn, helped them grow even more massive by drawing planetesimals into clumps or rings around the sun. The process of planets building undergoes consumption of most of the planetesimals. Some survived planetesimals form small moons, asteroids, and comets. The leftover Rocky planetesimals that remained between Jupiter and Mars were stirred by Jupiter’s gravitational force. Therefore, these Rocky planetesimals are unable to assemble into a planet. These planetesimals are known as asteroids. Formation of solar system is explained by solar nebular theory. A rotating flat disk with center bulge is the solar nebula. The outer part of the disk becomes planets and the center bulge becomes the sun.
Located in the sword of Orion, the Orion Nebula, also known as M42 or NGC 1976, lies in one of the most recognisable constellations in the night sky. It is a part of the larger Orion Nebula Cluster which at the age of roughly 3 million years old it lies a mere 1,344 lightyears away with a diameter of 14 lightyears [Scally, Clarke, Mccaughrean, 2005]. A nebula is a cloud of gas and dust [Oxford Dictionary, 2016] where either new stars are born or dead stars remain. The Orion Nebula is both an emission and reflection nebula, known as a diffuse nebula. An emission nebula is one in where there is a cloud of high temperature gas [Arnett, 1997]. A reflection nebula is one where the cloud of gas is illuminated by stars around it. The nebula has a
The ancient cultures like the Romans were the first to discover and name the planet Saturn but Galileo was the first to discover the rings in 1610 using his newly invented telescope. Bostiling a elegant ring system Saturn the sixth planet away from our sun at a distance of 1.4 billion kilometers. Saturn is second largest planet in the solar system and here on Earth is visible at night with the naked eye. Saturn has an overall hazy yellow-brown appearance from earth view but with a telescope people can see layers of cloud with little red, brown, and white spots.
Saturn's sales are down, and market share needs to be increased. Also, the product line is too narrow. Current advertising is targeting the younger population, but the average age of a Saturn buyer is 43. Saturn's initial focus on employee relationships seems to be fading as demonstrated with the clash between GM designers in Europe and the U.S. on the L-Series car. In addition, overall styling of the vehicles needs to be addressed.
The idea behind the Solar Nebular Hypothesis is that the solar system was condensed from an enormous cloud of hydrogen, helium, and a few other elements and rocks. Around five billion years this cloud of materials began to spin and contract together into a disk shape under their own gravitational forces. The particles started combined together, protoplanets, to eventually form planets. A great mass of the material eventually began to form together, protosun, and make up the sun.
Perhaps one of the most interesting features of our fathomless universe are the planets that are classified as gas giants. Huge, turbulent, and distant, the gas giants are some of the most enigmatic features in our Solar System. I have a personal interest to the gas giants and celestial bodies in general. When I was a child, I was fascinated by our Solar System. I read innumerable books about space, and my interests of outer space had been piqued further by other forms of media. Although I held this interest of space, growing up left me with little time to learn about space, and I lost interest for a while. Taking Earth Science in Milpitas High re-invigorated my interests in the celestial bodies. Using this class, I’m now able to focus on learning more about our colossal universe, in particular, the outer planets.
Aluni on thi qaoti pestari thi dunkiy os siin grezong un e smell petch uf gress. Thi Dunkiy fiils sefi, prutictid, end duis nut wurry ebuat eny hantirs. Thi dunkiy biloivis on stroct forierm cuntrul, biloivong thos woll prutict hom, end hos femoly. Hi luvis hos femoly, end whet e dovirsi femoly hi hes. Hi biloivis thet iviry mimbir uf hos femoly hes thi roght tu meki chuocis fur thimsilvis. Whithir ot bi un eburtouns, ur thi chuoci on semi six merroegis. Thi dunkiy biloivis on meonteonong e sulod icunumoc frunt by oncriesong texis fur thi wielthy, wholi moddli end luwir cless texis shuald nut oncriesi. Thi dunkiy biloivis on e bog femoly (Guvirnmint), ergaong thet woth animpluymint reti hogh on thi icunumy, meny niid thi essostenci pruvodid by thi prugrems.
Our knowledge gained of Titan has drastically improved since the early 1980s when Voyager flew past it. Titan is Saturn’s largest moon and the second largest moon of our solar system. It has a diameter estimated roughly 40% of Earth’s moon (Titan’s Radius: 2576, Moon’s Radius: 1737) and is 80% more massive (Titan’s Mass: 1.35 x 10^23 kg, Moon’s Mass: 7.35 x 10^22 kg. Titan has a atmospheric surface pressure 50% more than of Earth’s. In addition to that, Titan is the only moon to have a dense atmosphere. Titan’s atmosphere has been calculated to be 4.5 times more dense than of Earth’s atmosphere, which can been clearly noted by the layers of haze seen. The atmosphere in Titan is approximately 1.5km and is mainly composed of nitrogen. Titan has a very similar vertical atmospheric structure to earth, Titan has a troposphere temperature of ~94-~70K, a tropopause temperature of 70.4K and a stratosphere temperature of ~70-175K.