Identify The Properties Of Mathematics Answers

Summary

Continuing the Asteroid Impact challenge, student teams test rocks to identify their physical properties such as luster, hardness, color, etc., and classify them as igneous, metamorphic or sedimentary. They complete a data table to record all of the rock properties, and then answer worksheet questions to deepen their understanding of rock properties and relate them to the cavern design problem.

This engineering curriculum aligns to Next Generation Science Standards (NGSS).

Engineering Connection

Civil and geological engineers, for example, design tunnels through rock, build roads on the sides of mountains, and construct skyscrapers rooted in soil and rock. It is imperative for these engineers to thoroughly understand the natural characteristics and properties of all types of rocks to ensure health and safety standards are met.

Learning Objectives

After this activity, students should be able to:

Gather data by performing scientific observation and testing of rocks.
Use the data and a flowchart to determine rock types and rock classification.
Identify rock types by distinguishing features.
Relate rocks-in-hand to geological formations on maps.
Relate the relevance of each tested/observed rock characteristic to designing/building caverns.

Educational Standards

Each TeachEngineering lesson or activity is correlated to one or more K-12 science, technology, engineering or math (STEM) educational standards.

All 100,000+ K-12 STEM standards covered in TeachEngineering are collected, maintained and packaged by the Achievement Standards Network (ASN), a project of D2L (www.achievementstandards.org).

In the ASN, standards are hierarchically structured: first by source; e.g., by state; within source by type; e.g., science or mathematics; within type by subtype, then by grade, etc.

NGSS: Next Generation Science Standards - Science

Structures can be designed to serve particular functions by taking into account properties of different materials, and how materials can be shaped and used. (Grades 6 - 8) More Details
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Analyze and interpret data to determine similarities and differences in findings. (Grades 6 - 8) More Details
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Collect data to produce data to serve as the basis for evidence to answer scientific questions or test design solutions under a range of conditions. (Grades 6 - 8) More Details
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International Technology and Engineering Educators Association - Technology

Students will develop an understanding of the relationships among technologies and the connections between technology and other fields of study. (Grades K - 12) More Details
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Materials List

Each group needs:

rock testing kit (see component list, below); such as the Home Science Tools 15-specimen rock test kit (containing the necessary 8 rock samples) for $15.50 at http://www.hometrainingtools.com/rock-study-kit?fee=2&fep=2249&gclid=CPL-qq3_6MoCFZOCaQod2F0Bcg
(optional) mineral testing kit, such as the Home Science Tools mineral test kit for $7 at http://www.hometrainingtools.com/mineral-test-kit
textbook or reference to classify the rocks (igneous, sedimentary, metamorphic)
paper towel
3 handouts: Rocks, Rocks, Rocks Worksheet; Rock Test Data Table; Rock Identification Flow Chart

Each rock testing kit needs:

8 rock samples of the rocks listed on the Alabraska Geology Map: basalt, sandstone, limestone, granite, gneiss, slate, pumice, obsidian (not sand/gravel)
steel nail
copper penny
streak plate, stuch as an unglazed porcelain tile
magnet
hydrochloric acid; alternatively, use vinegar
magnifying glass
small piece of glass
small steel plate
piece of quartz
cup of water

Worksheets and Attachments

Visit [www.teachengineering.org/activities/view/csm_asteroid_lesson5_activity1_tg] to print or download.

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Pre-Req Knowledge

A general familiarity with rocks and minerals.

Introduction/Motivation

Some rocks are not suitable for caverns. So, to determine the best place to locate your cavern, you need to get an understanding of the types of rocks and their properties throughout the varied terrain of the state of Alabraska.

Different rock types vary by region, so today you will be performing some rock tests so you can learn their properties, identify them and classify them as sedimentary, igneous or metamorphic.

Igneous rocks are formed directly from the cooling of magma and make up the majority of the Earth's crust.
Sedimentary rocks are often called "secondary" rocks, because they form from small pieces of other types of rocks, or from minerals that were previously dissolved in water (like the silt in lakes, rivers and seas). These are commonly found in dry areas.
Metamorphic rocks are those that have been changed over time due to different chemical surroundings, heat and pressure.

Procedure

Background Information

As necessary, supplement students' understanding of basic rock/mineral testing, rock identification, and rock classification (sedimentary, igneous, metamorphic).

The basic explanation of the rock cycle follows: Rocks are pushed deep into the Earth's surface, usually by tectonic motion, where they melt into magma. At a volcano, or anywhere magma is exposed to become lava (such as at divergent tectonic plates), the magma/lava cools to become igneous rock. Several processes may occur after this, for example kaolinization, which generates granite and other common igneous rocks. Metamorphic rocks are created in a different process than igneous rocks, a process that is characterized by high temperatures and pressures, changing the physical and chemical properties. These high temperatures and pressures are found in mountain-building events or through close proximity to igneous intrusions, where high temperatures exist from the cooling magma. Rocks exposed to the atmosphere suffer weathering and erosion, breaking into smaller fragments. The fragments accumulate, compress, and fuse to generate sedimentary rocks, such as limestone.

Before the Activity

Gather materials and make copies of the handouts.

With the Students

Start with a class discussion about rock properties and rock classification:

Describe the various rock characteristics: luster (how light is reflected), hardness (ability to resist being scratched), granular (texture of the specimen), porous (how many small holes/pores), color.
Describe the various rock names (refer to the Alabraska Geology Map) and the three rock classifications: sedimentary, igneous and metamorphic.
Illustrate the rock cycle and emphasize the different formation routes of the three main rock types. The following diagram is useful.

A colorful graphic image shows the rock cycle. Igneous rocks are formed from the cooling and crystallization of magma or volcanic eruptions (lava). Igneous rocks wear down from weathering and erosion into sediments that become sedimentary rocks through deposition and lithification. Through heat, pressure and stress, sedimentary rocks become metamorphic rocks. Metamorphic rocks may either melt into magma or break down into sediments from weathering and erosion. So the cycling of material continues between igneous, sedimentary and metamorphic rocks. — An illustration of the rock cycle.

copyright

Copyright © Siyavula 2012. Flickr. https://www.flickr.com/photos/121935927@N06/13581730833

Distribute rock testing kits and handouts to each team. Three possible ways to distribute the rocks and conduct testing:

Quickest and most suitable for a mature class: Give each team all the rocks to test and discuss the results as a class after all testing and identification has been performed and recorded.
Give each group a different rock and after 5 minutes of testing, stop the class. Discuss the results using the flow chart and have the class chart each group's result.
Pass out one rock at a time to each group and allot 5 minutes to test, discuss and decide on its rock name. After 5 minutes, ask questions from the flow chart to guide students to the correct rock name and chart the results.

The header row of a table with these captions: ID#, hardness, brightness, granular, holes, luster, reactivity, buoyancy, rock name, classification. — Students record rock characteristics in the data table.

Provide students with some information to classify the rocks as sedimentary, igneous or metamorphic, such as a textbook, website material or verbal explanation.
Have students refer back to the Alabraska map and have them identify the best area for their cavern to be built while referring to their worksheet answers.
Lead a concluding class discussion to review students' answers to the the worksheet questions, as described in the Assessment section.

Assessment

Worksheet & Data Table: Review students' data and answers on the Rock Test Data Table and Rocks, Rocks, Rocks Worksheet to gauge their mastery of the concepts. Refer to the Asteroid Impact Student Workbook Example Answers provided in the unit document for example data table and worksheet answers.

Concluding Class Discussion: After testing and recording is done and students have completed the worksheet questions, which are intended to give meaning and context to the rock properties, lead a class discussion to review those answers. Discussing the answers is beneficial to the overall project and to students' retention of rock property descriptions. Also ask students:

Why is it important to know rock properties before you build in it?
How might these characteristics affect your cavern? (Possible answers: A soft rock might cave in, an extremely hard rock might be too difficult to drill through, a porous rock might let water flood the caverns, etc.)
What is one way in which igneous rocks form?
What is one way in which sedimentary rocks form?
What does metamorphic mean?

Activity Extensions

Have students find geology maps for their state and determine the most common rock types present in their state or region. Applying their findings in this activity, have them determine the best locations to build caverns in their state.

Activity Scaling

For younger students, have the teacher do the testing in the front of the classroom (more of a class demo), asking questions from the flow chart. Then talk students through charting the results.

Copyright

Supporting Program

Adventure Engineering, Colorado School of Mines

Acknowledgements

Adventure Engineering was supported by National Science Foundation grant nos. DUE 9950660 and GK-12 0086457. However, these contents do not necessarily represent the policies of the National Science Foundation, and you should not assume endorsement by the federal government.

Last modified: November 23, 2021