Daily Warm-Up Exercises

Slides:

Advertisements

Similar presentations

By Ryan Arthur and Kole Patton

Advertisements

We know it’s BIG…but HOW do we know that?

1 Daily Warm-Up Exercises Day 37 What are index fossils? Index fossils are the remains or traces of organisms that lived for only a short time, but in.

1Daily Warm-Up Exercises Day 43 What processes can be observed in a stream table? erosion, transport, and deposition What causes weathering? Weathering.

FOSSILS UNIT ONE.

Geologic Time and Earth History

LEQ: How do geologists and paleontologists determine the relative age of rocks? Part 1 Key Terms: Absolute Age, Relative Age, Law of Superposition,

Please get out your notebook!!

Determining the Age of Rocks

Chapter 4: A Trip Through Geologic Time

The Relative Age of Rocks

The Grand Canyon By: Leah Bahlman. Water How was the Grand Canyon formed? The Colorado River cuts through the Colorado Plateau. For 6 million years, the.

THE GRAND CANYON BECAME A NATIONAL PARK IN 1919 IN ORDER TO GIVE IT THE BEST PROTECTION WE (AS A NATION) HAVE TO OFFER.

Fossils. What is a fossil ► A fossil is the remains of a living organism. ► Includes bones, teeth, hair or shells ► Can also include impressions, molds.

Quick-write What is a fossil?. Fossils Fossils are remains, or evidence, of living organisms that have been preserved over millions of years.

Historical and Stratigraphic Analysis of the Grand Canyon By: Jake Halfhill.

READING THE ROCK RECORD. relative time: events are in sequence, but no actual dates absolute time: identifies actual date of event.

1Daily Warm-Up Exercises Day 41 Why is the Grand Canyon important to geologists? The Grand Canyon itself is only about 10 million years old, but it reveals.

How do scientists know evolution has occurred?. Paleontologists: scientists who study fossils Geologists: scientists who study rock layers.

1 Earth’s History Planet Earth is approximately 4.6 billion years old –Rocks of the crust provide clues to Earth’s past By analyzing these clues we can.

Earth History- Table of Contents RELATIVE vs. ABSOLUTE LAWS UNCONFORMITIES GEOLOGIC SECTIONS.

Reading the Rocks! Geologists read layers of rocks like pages in a book! Each rock tells a story of the environment in which it formed! Tropical Ocean.

1Daily Warm-Up Exercises Day 42 How do you perform an acid test, and what does it tell you about a rock sample? Squeeze a drop of hydrochloric acid onto.

Fossils. Fossils are the evidence or remains of prehistoric life – plants or animals. We use fossils to work out the relative ages of rock layers, and.

1 Daily Warm-Up Exercises Day 46 In the Grand Canyon, there is a layer of Coconino Sandstone directly above a layer of Hermit Shale. Which layer is older?

2 pt 3 pt 4 pt 5pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2pt 3 pt 4pt 5 pt 1pt 2pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4pt 5 pt 1pt Special Info 1 Rocks Types of Fossils.

Quick Write: Geologists have devised methods to estimate the ages of rocks in the Grand Canyon. Geologists have determined: The Earth is probably 4.5 billion.

Fossils as Clues / Post Lab Was Wegener Correct???

Quick Write: Get the sandstone you made, and create two T-charts as shown. Compare the rocks and complete the T-charts. Include comparisons of grain size,

QUIZ 1.According to the scientific community how old is the Earth? 2.What type of rock are the oldest know rocks? 3.What are Time units largely based.

1Daily Warm-Up Exercises Day 47 What are index fossils? They are the remains or traces of organisms that lived for only a short time, but in many places.

1Daily Warm-Up Exercises1 Day 27 What do numeric time scales show? Numeric time scales use numbers to show how many years ago different things happened.

Earth’s History The Rock Cycle Complete on page 135.

D.S.Q.: When you are finished with the questions above, work on your Fossil Chart until we get started on notes. Study the photograph of the Grand Canyon.

LEQ: How do geologists and paleontologists determine the relative age of rocks? Part 1 Key Terms: Absolute Age, Relative Age, Law of Superposition, 1.

21.2 – Relative Age Dating How can you tell if one rock layer is older than another? How can you tell if one fossil is older than another? What is an index.

Geologic Time The Geologic Time Scale Geologists have divided the history of the Earth in time units based on fossil evidence. The time units are part.

Sections 8.2 and 8.3 Page  How do geologists determine the relative and absolute ages of rocks?  How are index fossils useful to geologists?

1Daily Warm-Up Exercises Day 48 What is differential erosion? When a mountain or plateau is made of both weak and strong rock, the weak rock wears away.

Understanding Geologic Time. How old is it? How do we know? Absolute dating – process of assigning a precise numerical age to an organism, object or.

Quick-write Why do you think some rocks fizzed with acid?

1Daily Warm-Up Exercises Day 31 About how long has Earth existed? Earth has existed for about 4.5 billion years (or 4,500 million years). About how long.

Correlation and Fossils WOOHOO!. Applying Principles of Relative Dating to Determine Geologic History of an Area The process of matching rocks or geologic.

The Fossil Record. Learning Objective I can apply geologic rules to determine the relative age of fossils and rock layers in a geologic column by correctly.

1Daily Warm-Up Exercises1 Day 29 What is a fossil? A fossil is a remnant or trace of an organism (plant or animal) embedded and preserved in a rock. Which.

Earth’s History How do we know about it?. What is Uniformitarianism? Uniformitarianism: –Is a theory developed by the Scottish geologist, James Hutton,

2/26/13 1.List the fossils in order from the oldest to the youngest. 2.Explain why you know that is the correct order.

READING THE ROCK RECORD. relative time: events are in sequence, but no actual dates absolute time: identifies actual date of event.

GEOLOGIC HISTORY, FOSSILS, & RELATIVE DATING. Geologic History  Uniformitarianism  The idea that the same geologic processes that are shaping Earth.

Standard 3. Objective 3: Describe how rock and fossil evidence is used to infer Earth’s history. a) Describe how the deposition of rock materials produces.

How Old is Old? Geologic Time Scales. Relative vs. Numerical Age Geologists strive to establish both the sequence of events that produced geologic features.

1Daily Warm-Up Exercises Day 44 Why is mountain sand usually angular and poorly-sorted? The grains that make up mountain sand have not been carried far.

Fossils Fossil: Any evidence of prehistoric life forms or environments Often found in sedimentary rock layers (sandstone or shale)

(7 th ) Chapter 8-2 Cornell Notes The Relative Age of Rocks.

How old is old?. Earth Processes take a really, really, really (really) long time….. So, the question is – How do we know how old something is? Especially.

21.2 – Relative Age Dating. Interpreting Geology James Hutton, a Scottish geologist who lived in the late 1700s Attempted to explain Earth ’ s history.

1Daily Warm-Up Exercises Day 14 What are sediments? Sediments are particles that settle when whatever is carrying them slows down. How do sediments tend.

Grand Canyon Deep Dive 3/29/12

Lesson 2 Date: LT: I can make observations, analyze data, and identify patterns to make inferences about the history of a place. Sponge: What is the.

Sedimentary rocks.

Daily Warm-Up Exercises

How Old is Old? Geologic Time Scales.

Daily Warm-Up Exercises

WU: As a group put the Nankoweap rocks in order from upper

Correlating Rock Strata Notes

Daily Warm-Up Exercises

Determining the Age of Rocks

Presentation transcript:

Daily Warm-Up Exercises Day 37 What are index fossils? Index fossils are the remains or traces of organisms that lived for only a short time, but in many places around the world. Why are index fossils useful to geologists? When geologists find an index fossil in a rock layer, they know it is about the same age as all other rock layers that contain the same index fossil. What’s the difference between remains and traces? Remains are physical parts or remnants, like shells, bones, leaves, and so forth. Traces are preserved impressions the organism made on its environment, like footprints. Daily Warm-Up Exercises Daily Warm-Up Exercises 1

Use Index Fossils (Part 1, steps 10-12) Investigation 7 Fossils and Time

Index Fossil Correlations Turn to page 61 and cut out the profiles of Bryce Canyon and Zion National Park. Place the two profiles on page 59 and attach them so the index fossils are aligned correctly. Turn to page 63 and complete the index-fossil correlation questions. Daily Warm-Up Exercises 3

Same at Grand Canyon & Zion Kaibab and Z1 have the same index fossils

Same at Zion & Bryce Z7 and B5 have the same index fossils Z2 and B1 also have the same index fossils

Same at Grand Canyon & Bryce None

Compare Ages -- B3 vs. Supai B3 is younger than B1 B1 is from early Triassic Supai is from late Pennsylvania Triassic is more recent than Pennsylvania B3 is younger than Supai

Compare Ages -- B2 vs. Z1 B2 is younger than B1 B1 is from early Triassic Z1 is from Permian Triassic is more recent than Permian B2 is younger than Z1

Environment for B9 Since coal forms from decayed plants, the environment must have had a lot of plants. The sandstone means that sand was present. The area was probably swampy or on a floodplain.

Labels Exercise 7.2 Exercise 7.2 Image comprehension focus: Labeling Goal: Maintaining one’s understanding of the role of different labels Module Images: Resources book p.41 Type of Activity: Student Activity Overview: This activity provides students an opportunity to apply their understanding of the role of labels in diagrams to an example related to the content of this investigation. Students will review both the role and function of naming and explanatory labels. Procedure: Direct the students to look at resources book p. 41. >>>next slide<<<

CaSE Book Student Resource Book, page 50 Ask the students to pick one of the fossils shown and identify the naming label and explanatory label for that fossil. In addition, the student should be able to explain what information each type of label provides for each drawing (naming is the name in italics; explanatory is the time the fossil originated from). >>>end of exercise<<<

Captions Exercise 7.3 Exercise 7.3 Image comprehension focus: Captions Goal: Maintain the idea of the role/importance of captions Module Images: Resources book p. 41 Index Fossil Key (with and without modification) Type of Activity: Student Activity Overview: This activity should be conducted after the students have completed the index-fossil activity (Part 1, sections 5-7). This activity is designed to help the students build an understanding of the role and importance of captions. An understanding of the important role captions play in images and the fact that they should always be read, even if the viewer thinks he/she knows what the image is depicting, will aid students in developing their image comprehension skills. Procedure: Have the students turn to page 41 of the Resources book if they have not already done so. (image available on next slide). >>>next slide<<<

CaSE Book Student Resource Book, page 50 After they have completed the activity that uses this image, note that there is no caption on this image to help explain what it is depicting. If you didn’t know what an index fossil was, it would be hard to understand the image. Ask the students, based on what they have learned about index fossils and the role of captions, to write a caption for the image. Next, guide the students in sharing the captions that they wrote. This discussion should include differences and similarities among the captions. [A model caption is: An index fossil can be used to determine the age of rock layers since it lived for a relatively short period of time and in many places. This Index Fossil Key indicates the name and part of the period in which each index fossil lived.] >>>end of exercise<<<