EARTH LANDFORMS OF GEORGIA (Constructive and Destructive

... processes that are continuously shaping our ever changing Earth. Students will explore places like where glaciers are found, the Ring of Fire, the San Andreas Fault, and the ocean floor. In this unit of study, the students will explain what constructive and destructive forces are at work, how those ...

Earth Systems Standards Aligned to National Science Education

... The sun, the earth, and the rest of the solar system formed from a nebular cloud of dust and gas 4.6 billion years ago. The early earth was very different from the planet we live on today. Geologic time can be estimated by observing rock sequences and using fossils to correlate the sequences at vari ...

CH 1 - Biloxi Public Schools

...  Earth is tilted at 23 ½ degree angle.  North polar axis always points towards the North Star. ...

indirect evidence

... • Earth’s surface has been lifted up, pushed down, bent, and broken therefore it looks much different today than it did millions of years ago. • Can we dig to the center of Earth? Explain why it is or is not possible. No way! The extreme conditions within Earth’s interior prevent scientists from ex ...

Unit A – Studying Soil Scientifically

... 3. Extinct – A volcano that scientists do not expect to erupt ever again. 4. Nuclear Waste – Radioactive material that must be disposed because it is not useful. 5. Magma – Molten rock found beneath the earth’s surface. 6. Core – The innermost area of the earth’s interior. 7. Crust – The thin outerm ...

Atmosphere - Spring Branch ISD

... •Mountains are formed when Earth’s giant continental and oceanic plates collide. •Moving plates sometimes cause Earth’s surface to buckle forming folds; in other cases the moving plates ...

power point - HRSBSTAFF Home Page

...  material from beneath Earth’s crust  movement of the Earth’s crust ...

Earth as a system

... remaining from the formation and heat that is continuously generated by radioactive decay powers the internal processes that produce volcanoes, earthquakes, and mountains ...

The Structure of the Earth

... After many thousands of years your planet will become a world with a solid surface. ...

C7 Revision Earth and atmosphere[1].

... • w…………..……… the forces / p……………………………….. are building up ...

Document

... _____ 12. The thin outermost layer of the solid Earth is called the a. asthenosphere. c. outer core. b. mantle. d. crust. _____ 13. An earthquake of magnitude 5.0 releases how much more energy than an earthquake of magnitude 4.0? a. twice the energy b. three times the energy c. one hundred times the ...

C7 Revision Earth and Atmosphere

... • w…………..……… the forces / p……………………………….. are building up ...

The Rock Cycle - WNMS8thScience

... Solid – cannot move through liquid Side-to-side motion Slower Shadow zone – told us that the Earth’s interior is liquid ...

Earth as a System Chapter 2.1 Earth: A Unique Planet Earth Basics

... the solid, plastic layer of the mantle beneath the lithosphere; made of mantle rock that flows very slowly, which allows tectonic plates to move on top of it ...

Name: #: Date: Section: HR: Inside Earth WebQuest: Worksheet Part

... Inside Earth WebQuest: Worksheet Part 1: Earth's Interior Site 1 How is Earth’s interior like an apple? ...

Chapter 20 The Origin and Evolution of Life

... Chapter 20 The Origin and Evolution of Life In the beginning… Explain the big bang theory ...

Sources of information about plate tectonics

... (www.iris.edu/hq/files/programs/education_and_outreach/lessons_and_resources/docs/es_tom ography.pdf) Leaflet explaining how tomography is created. ...

7.1.2 Study: The Mantle and Crust

... Date: ____________ ...

2.2 Notes

... km) below the surface. - The outer core is about 1,400 miles (about 2,250 km) thick. - Both are made of iron and nickel. - The mantle is made of hot, dense rock. - It releases 80 percent of the heat generated from the earth’s interior. ...

Figure 1-2.

... Cross-section of the mantle based on a seismic tomography model. Arrows represent plate motions and large-scale mantle flow and subduction zones represented by dipping line segments. EPR =- East pacific Rise, MAR = MidAtlantic Ridge, CBR = Carlsberg Ridge. Plates: EA = Eurasian, IN = Indian, PA = ...

Science 7

... 8th Grade Science Welcoming Statement Welcome to eighth grade Science! This year you will use scientific inquiry to find the answers to questions that humankind has pondered for centuries. Required Materials Students are required to have the following with them at all times: Planner, binder, #2 penc ...

Q-gameHow are winds named

... 113.The times that day & night are of equal length are the _______. 114.Galileo called the dark, flat parts of the moon ______. 115.What do you call a meteoroid that hits Earth’s surface? 116.What kind of reactions occur on the sun, changing hydrogen into helium? 117.What magnitude do astronomers us ...

PowerPoint Presentation - The Interior of the Earth

...  material moves from high heat (low density)to low heat (high density).  as this occurs in the mantle it causes lithosphere to glide. ...

Quiz # 6

... 3. In which region of the Earth's atmosphere have you spent most of your life? a. the mesosphere b. the troposphere c. the stratosphere d. the ionosphere e. the ozone layer 4. The Van Allen belt is a. a region where industrial pollution has made a smoggy layer in the atmosphere b. a region of trappe ...

KS4 Earth and atmosphere Learning Objectives

... KS4 Earth and atmosphere Learning Objectives Pupils should be able to: ...

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Spherical Earth

The concept of a spherical Earth dates back to around the 6th century BC, when it was mentioned in ancient Greek philosophy, but remained a matter of philosophical speculation until the 3rd century BC, when Hellenistic astronomy established the spherical shape of the earth as a physical given. The paradigm was gradually adopted throughout the Old World during Late Antiquity and the Middle Ages. A practical demonstration of Earth's sphericity was achieved by Ferdinand Magellan and Juan Sebastián Elcano's expedition's circumnavigation (1519−1522).The concept of a spherical Earth displaced earlier beliefs in a flat Earth: In early Mesopotamian mythology, the world was portrayed as a flat disk floating in the ocean and surrounded by a spherical sky, and this forms the premise for early world maps like those of Anaximander and Hecataeus of Miletus. Other speculations on the shape of Earth include a seven-layered ziggurat or cosmic mountain, alluded to in the Avesta and ancient Persian writings (see seven climes).The realization that the figure of the Earth is more accurately described as an ellipsoid dates to the 18th century (Maupertuis).In the early 19th century, the flattening of the earth ellipsoid was determined to be of the order of 1/300 (Delambre, Everest). The modern value as determined by the US DoD World Geodetic System since the 1960s is close to 1/298.25.

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Spherical Earth