Lab

... exploration of the universe. You start to realize that there are many similarities among the surface features of Earth and other celestial objects. To better understand what has caused the features that you observed, you decide to take a closer look at Earth. In this investigation, we will gather in ...

Lecture - faculty

... The Earth's surface absorbs energy from sunlight and then radiates about as much energy back into space. The best proof you can offer for this fact is that the average surface temperature on Earth is ...

ppt

... Tectonics (gross movement of surface by interior forces) ...

117 Ways to Pass the Earth Science Regents

... 15. The earth rotates from West to East (24 hours) or counterclockwise ...

Earth`s Interior Notes/KEY

... on __________ from ______ samples and __________ waves released by ____________________. Earth’s interior is __________ into __________. The • A ___________layer of ___________ rock • Includes ______ _________and __________ floor • Thickest part is _______________ (_______________) • Thinnest part i ...

study guide for mid term 6th grade

... the atmosphere includes the air surrounding the earth, and the hydrosphere includes all the water, including the cryosphere which is the frozen water. 4. There is a stronger gravitational force between Earth and a dense object than there is between Earth and a less dense object. 5. A peninsula is a ...

Science Grade-Level Expectations: Earth Science (Recommended

... (e) Has the technique or theory been generally accepted in the scientific community? (SI-H-B5) (SI-H-B1) (SI-H-B4) Earth and Space Science Energy in Earth's System 1. Describe what happens to the solar energy received by Earth every day (ESS-H-A1) 2. Trace the flow of heat energy through the process ...

Earth Science - Collins Academy

... (e) Has the technique or theory been generally accepted in the scientific community? (SI-H-B5) (SI-H-B1) (SI-H-B4) Earth and Space Science Energy in Earth's System 1. Describe what happens to the solar energy received by Earth every day (ESS-H-A1) 2. Trace the flow of heat energy through the process ...

Physical Science Review for Fall Final Answer in journal, due FRI

... How do you find the number of protons, neutrons, and electrons? What is the charge of electrons? What happens to an atom’s charge if it loses electrons? Can you pinpoint the exact location of an electron? Explain. What is a covalent bond? What are properties of covalent bonds? What is an ionic bond? ...

geology (geol) - Cuyamaca College

... Environmental disturbance and climate change will be addressed within the context of the topics described above. AA/AS GE, CSU, CSU GE, IGETC, UC ...

Plate Movements and Continental Growth

... mountains show evidence of past subduction, suggesting that they formed at a convergent boundary. Yet neither of the mountain belts is located near a plate boundary today. Geologic evidence indicates that each range formed in the distant past at a plate boundary that no longer exists. The Appalachia ...

Why do you think Earth has layers?

... - Oceanic Crust – mostly Basalt bedrock (more dense) - Continental Crust – mostly Granite Bedrock (less dense) The deepest hole drilled by man is 7.6 mi deep (Kola Peninsula, Russia). That is only 1% of the Earth’s entire thickness. ...

Dynamic Planet Vocabulary - Schurger

... Where two lithosphere plates move past, toward or away from each other Subduction When two plates move toward each other and one is pushed Zone underneath the other. Pangea The original location of the earth’s plates when all the continents were joined together into one super-continent Geosphere The ...

LAB 2

...  Shows us that the Earth is LAYERED  The core must be made of a different material than the mantle to make the waves refract ...

OCN 201 Fall 2009 Exam 1 Study Guide Exam 1 will be held on

... 1. What indicators did ancient Polynesian navigators use to recognize the presence of islands up to 30 miles away? 2. What is chemical differentiation, and how is this related to the distribution of planets in our solar system? 3. Scientists believe that Earth formed by the infall of planetesimals. ...

Spheres of the Earth

... • Lithosphere is Greek for “rocky sphere” • The solid, outermost shell of a rocky planet • In Earth, the Lithosphere includes the crust and upper mantle • Is about 100 km. thick • Thickness dependent on age (older lithosphere is bigger) • Part magma ...

general_science_syllabus

... samples, indicates that climate changes have occurred at varying rates over geologic time and continue to occur today. ...

Fast Changes to the Earth`s Surface

... volcano is awesome. Superhot lava shoots out! Smoke, ash, and dust rise high into the air. Volcanoes, earthquakes, big storms and landslides are very powerful forces of nature. They can move mountains, soil, trees, water, and everything else in just seconds! ...

Comparison of the rocky planets

... Venus ~1000x more than Earth Mars ~1/1000 of Earth atmospheric density decreases away from surface ...

Layers of the Earth Unit 5 ES.7 The student will investigate and

... Explain how the lithosphere is ________into plates that are in motion (compression, tension, and shearing) with respect to one another (because of convection currents in the mantle). The core, _______________, and crust of the Earth are dynamic systems that are constantly in motion Throughout the ty ...

Earth`s Structures and Earthquake Study Guide

... 28. In a strike-slip fault, the rocks on either side of the fault slip past each other sideways with little up-or-down motion. 29. The Mercalli Scale would most likely be used to tell how much earthquake damage was done to homes and other buildings. 30. A fold in rock that bends upward into an arch ...

Earth- information sheet Homework T4 Wk1

... 365 days long but the ¼ days are added up and every fourth year has one extra day, on the 29th of February. This fourth year is called a Leap Year (366 days) and is always a year which can be divided exactly by 4 – 2000, 2004, 2008, 2012, 2016. The planets closer to the Sun, Mercury and Venus, have ...

Earth Science

... 1% (H2O vapor, argon, CO2, other trace gases) ...

Earth`s Systems Earth Realms The Earth`s Four Realms Geosphere

... is spreading over the high plains of Colorado toward the Rocky Mountains. ...

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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