The Earths Core - Its Structure and Possible Composition

The Earth's Core - Its Structure and Possible Composition A century ago, science barely knew that the Earth even had a core. Today we are tantalized by the core and its connections with the rest of the planet. Indeed, were at the start of a golden age of core studies. The Cores Gross Shape We knew by the 1890s, from the way Earth responds to the gravity of the Sun and Moon, that the planet has a dense core, probably iron. In 1906 Richard Dixon Oldham found that earthquake waves move through the Earths center much slower than they do through the mantle around it- because the center is liquid. In 1936 Inge Lehmann reported that something reflects seismic waves from within the core. It became clear that the core consists of a thick shell of liquid iron- the outer core- with a smaller, solid inner core at its center. Its solid because at that depth the high pressure overcomes the effect of high temperature. In 2002 Miaki Ishii and Adam Dziewonski of Harvard University published evidence of an innermost inner core some 600 kilometers across. In 2008 Xiadong Song and Xinlei Sun proposed a different inner inner core about 1200 km across. Not much can be made of these ideas until others confirm the work. Whatever we learn raises new questions. The liquid iron must be the source of Earths geomagnetic field-   the geodynamo- but how does it work? Why does the geodynamo flip, switching magnetic north and south, over geologic time? What happens at the top of the core, where molten metal meets the rocky mantle? Answers began to emerge during the 1990s. Studying the Core Our main tool for core research has been earthquake waves, especially those from large events like the 2004 Sumatra quake. The ringing normal modes, which make the planet pulsate with the sort of motions you see in a large soap bubble, are useful for examining large-scale deep structure. But a big problem is nonuniqueness- any given piece of seismic evidence can be interpreted more than one way. A wave that penetrates the core also traverses the crust at least once and the mantle at least twice, so a feature in a seismogram may originate in several possible places. Many different pieces of data must be cross-checked. The barrier of nonuniqueness faded somewhat as we began to simulate the deep Earth in computers with realistic numbers, and as we reproduced high temperatures and pressures in the laboratory with the diamond-anvil cell. These tools (and length-of-day studies) have let us peer through the layers of the Earth until at last we can contemplate the core. What the Core Is Made Of Considering that the whole Earth on average consists of the same mixture of stuff we see elsewhere in the solar system, the core has to be iron metal along with some nickel. But its less dense than pure iron, so about 10 percent of the core must be something lighter. Ideas about what that light ingredient is have been evolving. Sulfur and oxygen have been candidates for a long time, and even hydrogen has been considered. Lately, there has been a rise of interest in silicon, as high-pressure experiments and simulations suggest that it may dissolve in molten iron better than we thought. Maybe more than one of these is down there. It takes a lot of ingenious reasoning and uncertain assumptions to propose any particular recipe- but the subject is not beyond all conjecture. Seismologists continue to probe the inner core. The cores eastern hemisphere appears to differ from the western hemisphere in the way the iron crystals are aligned. The problem is hard to attack because seismic waves have to go pretty much straight from an earthquake, right through the Earths center, to a seismograph. Events and machines that happen to be lined up just right are rare. And the effects are subtle. Core Dynamics In 1996, Xiadong Song and Paul Richards confirmed a prediction that the inner core rotates slightly faster than the rest of the Earth. The magnetic forces of the geodynamo seem to be responsible. Over geologic time, the inner core grows as the whole Earth cools. At the top of the outer core, iron crystals freeze out and rain into the inner core. At the base of the outer core, the iron freezes under pressure taking much of the nickel with it. The remaining liquid iron is lighter and rises. These rising and falling motions, interacting with geomagnetic forces, stir the whole outer core at a speed of 20 kilometers a year or so. The planet Mercury also has a large iron core and a magnetic field, though much weaker than Earths. Recent research hints that Mercurys core is rich in sulfur and that a similar freezing process stirs it, with iron snow falling and sulfur-enriched liquid rising. Core studies surged in 1996 when computer models by Gary Glatzmaier and Paul Roberts first reproduced the behavior of the geodynamo, including spontaneous reversals. Hollywood gave Glatzmaier an unexpected audience when it used his animations in the action movie The Core. Recent high-pressure lab work by Raymond Jeanloz, Ho-Kwang (David) Mao and others has given us hints about the core-mantle boundary, where liquid iron interacts with silicate rock. The experiments show that core and mantle materials undergo strong chemical reactions. This is the region where many think mantle plumes originate, rising to form places like the Hawaiian Islands chain, Yellowstone, Iceland, and other surface features. The more we learn about the core, the closer it becomes. PS: The small, close-knit group of core specialists all belong to the SEDI (Study of the Earths Deep Interior) group and read its Deep Earth Dialog newsletter. And they use the Special Bureau for the Cores website  as a central repository for geophysical and bibliographic data.

The Stranger by Albert Camus Essay Example | Topics and Well Written Essays - 500 words

The Stranger by Albert Camus - Essay Example Meursault's character is a statement about the author's view of the irrationality of the universe and how humans are making it complicated through insisting that life is purposeful. The exposition part of the plot revealed so much about Meursault's concept of the word "emotions." The story began with news that his mother passed away through a telegram. Contrary to the expected reaction of a son who just lost a parent, he did not turn out to be sentimental, or at least sentimental in a masculine way. Instead, he cared more about what day and time his mother died. The diction and tone used by Camus is entirely helpful upon establishing Meursault's persona. To directly say that "Mother died today, or maybe yesterday; I can't be sure" (Camus 4) is a perfect portrayal of being indifference towards the death of a loved one. It is noticeable however, that Meursault is emotionally detached from his own mother, which made sense if he would be the same with the rest of the people around him. T he physical world is more important to him than what really matters according to society's opinion, such as love and the concept of a meaningful life.