Effect of the Moon on Planet Earth

Effect of the laze on Planet Earth tantalise ChaplinThe Earth would be a very different luff without the slug. DiscussIts true that without the dream, the reason would be a less romantic place. mythical werewolves would never take up been conceived, nor would we conduct a calendar based on the concept of the lunar phases. It has undoubtedly influenced human culture oer millennia, still cig art the same be said for our neighbouring celestial satellite in geological terms? A seemingly insignifi skunkt lump of rock in comparison, it can be hard to comprehend that the stargaze has had such potenti eithery significant impacts on shaping the earth as it appears today. But as it seems, a range of a function of occurrences were set in motion from the instant the moon was form which have non only left us here perplexed by it, scarcely have left us here in the early place.The bulk of the moons responsibility for impacting upon the planet lies with its sombreness and proximity to the earth. Such a scenario allows for it to have a pro set influence on the tides of our oceans, which in turn serves to slow the earths gyration and hurl the moon further onward from us. The gravitational attraction of the moon is also the stabilising factor in a celestial battle amidst the large bodies of the solar system to visualize the planets axial obliquity off-balance. The very fact that the moon is here in the first place tells of how fortunate the impact that formed it was, because were it not for that humble collision over 4.5 billion years ago, life on earth would be vastly different today at the very least (and conceivably even absent at worst). Its front line has also stimulated the application of mathematics and induced superstition in generations of humans, whilst providing total solar eclipses which are a usually rare, defining aspect of earth. The regular monthly cycle of the lunar phases has also been linked to mating sequences, hunting rituals and even the menstrual cycle, which 51% of the earths human population will experience for a large quantity of their lives. On top of all of this, the moon has defined the view of the night sky along with the stars and reflected the sunlights light to dampen its pitch black darkness since judgment of conviction immemorial, achieving omnipresence in a clique of modern media. The earth would be a very different place without the moon.It only seems prudent to commence with the earliest chronological appearance of the moon. The intimately widely accepted modern theory for its formation is centred nearly a hypothetical protoplanet by the name of Theia. It is proposed to have been around the size of Mars, and about 10% of the mass of the earth. 1 Isotope analysis of lunar rocks bought butt from the Apollo mission tells us that Theia is hypothesised to have collided with the earth at 4.527 0.010 billion years before present. 1 Earth as it was back then would have been wholly transformed by this impact, altering its composition and ultimately allowing it to become the planet it is today. This collision would have also produced a goodly amount of debris, which would have subsequently accreted to form the moon. 2 This is the only feasible model which explains why the moon finds itself in orbit with the earth physics- based computerised reconstructions show that it would not have been possible to capture a passing-by moon with the gravitational field of study of the earth, nor would it have been possible to originate from ejection of material from the molten earth collectable to fission by centrifugal force. 3 Assuming that this hypothesis is correct, it is obvious that earth has been extensively altered because of the moon. For one, upon impact, material from the dense iron core of Theia would likely have sunk towards the core of earth due to gravity, whilst mantle material would likely have been accreted onto the protrude of the proterozoic earth. 2 This is the rea son for the characteristic inner layers of the earth today. The moon would have then formed from excess material from the impact coalescing in the surrounding vicinities of the early earth. Thus, the formation of the moon both added and took away material from the early earth, heavily influencing its very composition from as early as 4.537 Ga. 1, 2Having considered that this moon-forming impact would have been a major source of much of the terrestrial iron found on earth today, the size of our iron-nickel core would have been directly affected by it. The earths mantle chemically differentiated in an event called the iron catastrophe, throughout the first 500 million years of the planets formation. Extremely large quantities of iron succumbed to gravity and sunk to form the core. The innermost part of the earth was thus comprised of conductive elements, an iron-nickel alloy, which became able to generate electrical currents whilst rotating due to the coriolis effect in interaction w ith convection in the mantle 8 (which originated in the first place from heat escaping from the core). As a result, the roughly dipolar magnetosphere was conceived, giving rise to the radioactive Van Allen Belts by trapping charged protons and electrons in concentrical bands surrounding the planet. 8 Figure 1 above is a scaled representation of the invisible magnetosphere and Van Allen belts surrounding the earth. Only discovered in 1958, the infamously deadly belts have been unvoiced yet fundamental in the development of life on our planet. This is due to the particles ability to prevent horrific ionising radiation to reach the surface of the earth and effectively fry anything which ever endeavoured to exist on the surface. The magnetosphere itself would also have prevented any charged particles of solar wind from reaching the earths surface and causing similar damage. Amongst other variables, the strength of the earths magnetic field would be directly proportional to the size of the core according to dynamo theory, 8 and accordingly we have the moon-forming impact to thank for a hospitable and agreeable planet. Its in that locationfore fair to say that without the moon coming into fruition, the earth may never have done either. There are more obvious ongoing effects of the moon on the earth today though, than there were back in the Hadean.It is fairly common knowledge that the moon has influence on the tides of our seas and oceans. Along with the sun, it produces the twice-daily rise and fall of the seas that boggled coastal dwellers for millennia prior to Newtons formulation of the universal law of gravitation in 1687. Naturally, the gravitational attraction between two separate entities is inversely proportional to the distance between them. 4 Thus, whilst the sun may be roughly 400 times as large as the moon, it is (coincidentally) around 400 times further away than it, and so exerts less influence over the tides. 4 The area of the earth closest to the moon at any given halt will see a protuberance of its oceans, as the water is attracted to the moons gravitational field. 4 Simultaneously on the opposite side of the earth furthest from the moon, the crust itself succumbs to the lunar gravitation and is, in effect, marginally subsided, producing an additional ocean bulge. 4 Figure 2 (right) illustrates and annotates this gravitational phenomenon, by ever-so- fairly exaggerating the voltage bulge of the tides However, depending on the topography of shoreline localities and nature of continental slopes around the globe, the fluctuation can vary wildly between low and high tides. 4 In extreme cases, this can affect the livelihoods of littoral inhabitants by dictating fishing schedules or putting their homes in danger, showing how the moon genuinely is a foremost influence on making the earth the place it is. One such scenario is the extraordinary tidal range at the Bay of Funday in Eastern Canada, which can surpass 12 metres. 4 Circumstances like this can occur upon the arrival of spring tides (from the German verb springen, to leap, not from the name of the season) whereby the sun and moon align, causing upper limit attraction in their direction and thus amplifying the height of the tides. 4 Alas, the moon is a dictatorial authority on the tides of our oceans, and presumably has been since the oceans formed around 3.8 billion years ago.Swishing and swashing the oceans for eons of geological time has not passed by without its consequences however. The moons gravity has created the tides on the one hand, whilst the rotation of the earth has slightly offset the location of them on the other the actual location of the peaked tidal bulge is slightly ahead of where it would logically be, at the closest point on the earths surface to the moon. 7 As a result, a surprisingly large amount of mass (the tidal protuberance of the oceans) is offset slightly from the closest locality on earth to the moon at that point i n time, meaning that a certain quantity of the gravitational pull is no longer directly between the earth and moon, but at a 90 angle to it. 7 Thus, torque is effectively created between the two planetary bodies, 7 and is very much called tidal friction, tidal acceleration or tidal braking. This means that the presence of the moon causes our characteristic 24 hour days to lengthen by around 2.3 milliseconds every century. 7 Taking Newtons third law of equal and opposite reactions into account, the earth is also pushing the moon away by 3.820.007 cm per year as a result of this torque. 7 Would all of this really mean though that without the moon, the earth would be a very different place? Extrapolating back in time to 4 billion years ago tells us that the moon was some 15,000 km closer. Tidal forces would have been gargantuan, with hypothesised constant tsunami waves violate the planet. Perhaps, this would not only have served to shape the landscape by causing erosion, but it would have also dictated when proportions of the land surface would have been colonised enough for life to flourish. In addition, the day would have been much shorter, with the year being around 400 days long due to the faster rotation of the earth. Looking ahead to the future, the earth may very well slow until it reaches the same rotational speed as the moon, and then the exact same kisser of the moon will always face the earth as in the Pluto-Charon arrangement on the outskirts of our solar system. 7 This demonstrates how that over short periods of time, the consequences of the moons presence on the earth are subtle, nigh negligible, but are not to be taken lightly in the (very) long run.Moving on from the tides of the planet, there is another reason in addition to the earlier-discussed Van Allen belts that the moon may well be the reason that life exists on earth as it does today. The axial tilt of the earth (also referred to as obliquity, a Milankovich cycle) is currently measured at 23.4 (and decreasing) between the earths rotational axis and the perpendicular to its orbital plane. 5 Whilst all sizeable bodies in our solar system (such as the sun and the gas giants) have an effect on this angle of tilt, the much closer proximity of the moon means that it is the most regulatory factor in this cosmic gravitational tug-of-war. 5 Figure 3 (left) shows the range between the earths minimum and maximum axial tilt values, for which we have the moon to thank for keeping the planet within those parameters. Without such a valuable sidekick, the tilt of a planetary torso could incline wildly. In fact, there is evidence that Mars has tilted by up to 60 in the past, 5 presumably no thanks to the inferior gravitation of Phobos and Deimos in comparison to our moon. In a more horrific circumstance, computer models have liberated the earth of the moons gravitational effects and shown that it could slant by as much as 85, essentially interchanging the locations of the equat or and the poles 5 The would-be climatic consequences of such an event are naturally rather sketchy, but it is effective to presume that life on land would have been hard-pushed to adapt and may very well have been diminished. 5 Extrapolating from this, perhaps life on earth would be completely different, with organisms such as thermophiles at oceanic ridges, migratory birds and aquatic beings flourishing in the absence of land-dwelling mammals. Its hard to imagine that the moon has the potential to command the diversity of the species in existence on the planet, and that it has been maintaining our climate and giving us our seasons, all due to the fact that it is steadying our axial tilt. This is the reason why the moon is such a prominent part of the Rare Earth hypothesis, which explains how there are many different astrological criteria which must come in concert in order for a planet to prospectively bear life 6 in other words, we owe our existence to the moon. Regardless of ou r location in the galactic liveable zone, our rocky terrain (not gaseous) and the fortune to have evolved beyond microbial life, the arrival of the moon was the ultimate (and perhaps the flukiest) stroke of luck to have ever graced the planet from a human perspective. 6In conclusion, its obvious to draw from these analyses that the earth simply wouldnt be the same without the moon, not only from a geological perspective, but from every perspective conceivable when its role in putting us here in the first place is considered. The moon is receding from our planet, and only time will tell if earth will succumb to life without it.References1 Wieczorek, M. et al. (2006)The constitution and structure of the lunar interior Pages 322-3232 Canup, R.M. (2004) Simulations of a late lunar-forming impactIcarus Issue 168, Pages 433436, 453-4563 Stroud, R. (2009)The Book of the Moon Pages24314 Grotzinger, J. Jordan, T. (2010) Understanding Earth Sixth Edition, Pages 540-5415 Dartnell, L. (2007) Life in the Universe, a Beginners Guide Pages 69-706 Ward, P.D. Brownlee, D. (2000) Rare Earth Why Complex Life is Uncommon in the Universe Pages 191, 194 2007 Chao, B.F. Ray, R.D. (1998) Oceanic tidal angular momentum and Earths rotation variations Page 4038 Glatzmaier, G.A. Roberts, P. H. (1995) A three-dimensional self-consistent computer simulation of a geomagnetic field reversalNature Issue377Pages 203209Image ReferencesFigure 1 http//www.nasa.gov/mission_pages/sunearth/news/gallery/Magnetosphere.htmlFigure 2 http//science.howstuffworks.com/moon4.htmFigure 3 http//earthobservatory.nasa.gov/Features/Milankovitch/milankovitch_2.php1