ppt - Earth2Class

... impacts of asteroids, meteorites, and other extraterrestrial objects with us since 2002. Her studies have taken her to many parts of the world, from Australia and New Zealand to the Hudson River and the continental shelf off NJ/NY. Today, she’ll discuss ongoing work in an area about 140 km east of M ...

plate tectonics test

... a. Moves slightly NW at 2 cm/year b. Moves slightly NE at 2 cm/year c. Moves slightly NW at 2 km/year d. Moves slightly NW at 2km/year C ...

Chapter 30: The Interior of the Earth

Why Questions Topics

... Why Questions: 1. How much does the Earth weigh? 2. What makes diamonds so hard, can they break? 3. Why does Earth have plate tectonics? 13. Why is magnetite magnetic? 15. Where does gold and platinum come from? 16. How did the oceans come out of volcanoes? 19. What is the force of gravity on Earth? ...

Forces of Change

... Creates soil and breaks down mountains Coasts Canyons Cliffs caverns Humans are both Builders AND Breakers of Landforms Islands and Mountains ...

Earth: An Ever changing planet

... What was the surface of the earth like for most of the Haden Era? During which era did multicellular life evolve? Which is a shorter period of time: an eon or an era? During which period did flowering plants evolve? When did the first birds evolve? What were the first vertebrates? When did the first ...

Earth: An Ever changing planet

... time,just like a year is broken into months, weeks, days and hours • Earth’s history is broken into eons, eras, periods, and epochs ...

Earth: An Ever changing planet

Exam Block #5

... associated with diamonds and have brought up direct samples of the upper mantle from 200 km in depth to the surface and they are peridotites. Mantle – divided into the: Upper Mantle (asthenosphere) – base of crust to 660 km in depth. Transition Zone at bottom of the upper mantle. Lower Mantle ...

Document

Lab 2 Presentation slides

... are "floating" in isostatic equilibrium on a plastic region of earth's mantle called the asthenosphere. *Note that bottom figure is schematic and mantle lithosphere is much thicker than typical continental & oceanic crust. ...

File

Chapter 3:The Dynamic Earth

... Composition of Earthhttp://www.youtube.com/watch?v=_iUfi8XqEos&feature=related 1. Crust- think outer layer, light elements, less than 1% of planet’s ...

unit 2 earth history lecture and study guide

Earth Science Notes - Bridgman Elementary School

Word format

... 16. Three seismograph stations are needed to find the epicenter of an earthquake because: A. the more, the better B. at least one of the stations could have made a mistake C. some instruments cannot measure the P-S time interval D. more than three stations takes too long to process the seismogram da ...

Inside the Earth

Blog_mass - Magnetism, Bad Metals and Superconductivity

KICKS Plate Tectonics

... Wegener’s Continental Drift Hypothesis was rejected because it lacked a convincing mechanism for moving the “continents.” The observations of these two scientists ultimately helped solve that problem: • In 1929, Arthur Holmes suggested that continental drift might be caused by thermal convection in ...

Gravitational and Anti-gravitational Applications

Lecture 10

Earth Interior Ppt - www .alexandria .k12 .mn .us

... temperatures and pressures so great that the metals are squeezed together and are not able to move about like a liquid, but are forced to vibrate in place like a solid. ...

Faults

... Dissemination or sale of any part of this work (including on the World Wide Web) will destroy the integrity of the work and is not permitted. The work and materials from it should never be made available to students except by instructors using the accompanying text in their classes. All recipients o ...

Simple harmonic motion

Lecture 18 Earth`s Interior

... • Seismic imaging: As seismic waves travel through Earth, they carry information to the surface about the materials through which they pass through. Thus, seismic records can be used to image of Earth's interior much like X-rays for medical use. ...

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Schiehallion experiment

The Schiehallion experiment was an 18th-century experiment to determine the mean density of the Earth. Funded by a grant from the Royal Society, it was conducted in the summer of 1774 around the Scottish mountain of Schiehallion, Perthshire. The experiment involved measuring the tiny deflection of a pendulum due to the gravitational attraction of a nearby mountain. Schiehallion was considered the ideal location after a search for candidate mountains, thanks to its isolation and almost symmetrical shape. One of the triggers for the experiment were anomalies noted during the survey of the Mason–Dixon Line.The experiment had previously been considered, but rejected, by Isaac Newton as a practical demonstration of his theory of gravitation. However, a team of scientists, notably Nevil Maskelyne, the Astronomer Royal, were convinced that the effect would be detectable and undertook to conduct the experiment. The deflection angle depended on the relative densities and volumes of the Earth and the mountain: if the density and volume of Schiehallion could be ascertained, then so could the density of the Earth. Once this was known, then this would in turn yield approximate values for those of the other planets, their moons, and the Sun, previously known only in terms of their relative ratios. As an additional benefit, the concept of contour lines, devised to simplify the process of surveying the mountain, later became a standard technique in cartography.

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Schiehallion experiment