Curriculum team reference guide with GLCE and Companion Docs for 6th grade unit on Earth Properties and Composition
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CURRICULUM STANDARDS AND COMPANION DOCUMENTS 6th Grade - Composition, Properties, and Changes of the Earth Contains: - Science Companion Document for 6th Grade Composition, Properties, and Changes of the Earth unit - General Inquiry Questions Assessment questions - 6th Grade Composition, Properties, and Changes of the Earth Assessment questions - 6th Grade Science Expectations - 6th Grade ELA Expectations - 6th Grade Mathematics Expectations - 6th Grade Social Studies Expectations - Grade 6-8 Technology Expectations
Transcript
CURRICULUM STANDARDS AND COMPANION DOCUMENTS
6th Grade - Composition, Properties, and Changes of the Earth
Contains:- Science Companion Document for 6th Grade Composition, Properties, and
Changes of the Earth unit- General Inquiry Questions Assessment questions- 6th Grade Composition, Properties, and Changes of the Earth Assessment
Introduction to the K-7 Companion Document An Instructional Framework
Overview The Michigan K-7 Grade Level Content Expectations for Science establish what every student is expected to know and be able to do by the end of Grade Seven as mandated by the legislation in the State of Michigan. The Science Content Expectations Documents have raised the bar for our students, teachers and educational systems. In an effort to support these standards and help our elementary and middle school teachers develop rigorous and relevant curricula to assist students in mastery, the Michigan Science Leadership Academy, in collaboration with the Michigan Mathematics and Science Center Network and the Michigan Science Teachers Association, worked in partnership with Michigan Department of Education to develop these companion documents. Our goal is for each student to master the science content expectations as outlined in each grade level of the K-7 Grade Level Content Expectations. This instructional framework is an effort to clarify possible units within the K-7 Science Grade Level Content Expectations. The Instructional Framework provides descriptions of instructional activities that are appropriate for inquiry science in the classroom and meet the instructional goals. Included are brief descriptions of multiple activities that provide the learner with opportunities for exploration and observation, planning and conducting investigations, presenting findings and expanding thinking beyond the classroom. These companion documents are an effort to clarify and support the K-7 Science Content Expectations. Each grade level has been organized into four teachable units- organized around the big ideas and conceptual themes in earth, life and physical science. The document is similar in format to the Science Assessment and Item Specifications for the 2009 National Assessment for Education Progress (NAEP). The companion documents are intended to provide boundaries to the content expectations. These boundaries are presented as “notes to teachers”, not comprehensive descriptions of the full range of science content; they do not stand alone, but rather, work in conjunction with the content expectations. The boundaries use seven categories of parameters:
a. Clarifications refer to the restatement of the “key idea” or specific intent or elaboration of the content statements. They are not intended to denote a sense of content priority. The clarifications guide assessment.
b. Vocabulary refers to the vocabulary for use and application of the science topics and principles that appear in the content statements and expectations. The terms in this section along with those presented
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within the standard, content statement and content expectation comprise the assessable vocabulary.
c. Instruments, Measurements and Representations refer to the instruments students are expected to use and the level of precision expected to measure, classify and interpret phenomena or measurement. This section contains assessable information.
d. Inquiry Instructional Examples presented to assist the student in becoming engaged in the study of science through their natural curiosity in the subject matter that is of high interest. Students explore and begin to form ideas and try to make sense of the world around them. Students are guided in the process of scientific inquiry through purposeful observations, investigations and demonstrating understanding through a variety of experiences. Students observe, classify, predict, measure and identify and control variables while doing “hands-on” activities.
e. Assessment Examples are presented to help clarify how the teacher can conduct formative assessments in the classroom to assess student progress and understanding
f. Enrichment and Intervention is instructional examples that stretch the thinking beyond the instructional examples and provides ideas for reinforcement of challenging concepts.
g. Examples, Observations, Phenomena are included as exemplars of different modes of instruction appropriate to the unit in which they are listed. These examples include reflection, a link to real world application, and elaboration beyond the classroom. These examples are intended for instructional guidance only and are not assessable.
h. Curricular Connections and Integrations are offered to assist the teacher and curriculum administrator in aligning the science curriculum with other areas of the school curriculum. Ideas are presented that will assist the classroom instructor in making appropriate connections of science with other aspects of the total curriculum.
This Instructional Framework is NOT a step-by-step instructional manual but a guide developed to help teachers and curriculum developers design their own lesson plans, select useful portions of text, and create assessments that are aligned with the grade level science curriculum for the State of Michigan. It is not intended to be a curriculum, but ideas and suggestions for generating and implementing high quality K-7 instruction and inquiry activities to assist the classroom teacher in implementing these science content expectations in the classroom.
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HSSCE Companion Document
Sixth Grade GLCE Companion Document
Unit 3: Composition, Properties, and
Changes of the Earth
SCIENCE
• Big Ideas • Instructional Framework • Clarifications • Enrichment • Inquiry • Intervention • Vocabulary • Real World Context • Instruments • Literacy Integration • Measurements • Mathematics Integration
v.1.09
Sixth Grade Companion Document
6-Unit 3: Composition, Properties, and Changes of the Earth
Table of Contents Page 1 Curriculum Cross Reference Guide Page 2 Unit 3: Composition, Properties, and Changes of the Earth Page 3 Big Ideas (Key Concepts) Page 3 Clarification of Content Expectations Page 3
Inquiry Process, Inquiry Analysis and Communication, Reflection and Social Implications Page 8 Vocabulary Page 9 Instruments, Measurements, and Representations Page 9 Instructional Framework Page 10 Enrichment Page 13 Intervention Page 13 Examples, Observations and Phenomena (Real World Context) Page 14 Literacy Integration Page 15
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6th Grade Unit 3: Composition, Properties, and Changes of the Earth
Content Statements and Expectations
Code Statements & Expectations Page E.SE.M.4 Rock Formation – Rocks and rock formations bear
evidence of the minerals, materials, temperature/pressure conditions and forces that created them.
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E.SE.06.41 Compare and contrast the formation of rock types (igneous, metamorphic, and sedimentary) and demonstrate the similarities and differences using the rock cycle model.
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E.SE.M.1 Soil – Soils consist of weathered rocks and decomposed organic materials from dead plants, animals, and bacteria. Soils are often found in layers with each having a different chemical composition and texture.
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E.SE.06.11 Explain how physical and chemical weathering lead to erosion and the formation of soils and sediments.
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E.SE.06.12 Explain how waves, wind, water, and glacier movement shape and reshape the land surface of the Earth by eroding rock in some areas and depositing sediments in other areas.
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E.SE.06.13 Describe how soil is a mixture, made up of weather-eroded rock and decomposed organic material, water, and air.
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E.SE.06.14 Compare and contrast different soil samples based on particle size.
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E.SE.M.6 Magnetic Field of Earth – Earth as a whole has a magnetic field that is detectable at the surface with a compass.
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E.SE.06.61 Describe the Earth as a magnet and compare and contrast the magnetic properties of the Earth to that of a natural or manufactured magnet.
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E.SE.06.62 Explain how a compass works using the magnetic field of the Earth, and how a compass is used for navigation on land and sea.
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6-Unit 3: Composition, Properties, and Changes of the Earth
Big Ideas (Key Concepts)
• Earth materials have properties that make the materials useful. • Earth materials and the surface of the Earth change gradually and rapidly. • The Earth has magnetic properties.
Clarification of Content Expectations
Standard: Solid Earth Content Statement – E.SE.M.4 Rock Formation – Rocks and rock formations bear evidence of the minerals, materials, temperature/pressure conditions and forces that created them. Content Expectation E.SE.06.41 Compare and contrast the formation of rock types (igneous, metamorphic, and sedimentary) and demonstrate the similarities and differences using the rock cycle model. Instructional Clarifications 1. Compare and contrast means to show similarities and differences between
the formation of rock types (igneous, metamorphic, and sedimentary) and demonstrate the similarities and differences using the rock cycle model.
2. All rocks are similar because they are composed of minerals. 3. Rocks, over time, can be transformed into other types of rocks. 4. There are three different types of rocks—igneous, metamorphic, and
sedimentary. 5. The three rock types are different in the way in which they are formed.
Igneous rocks are formed from melted minerals that have cooled and hardened. Metamorphic rocks are formed by intense heat pressure and chemical reactions. Sedimentary rocks are formed either from the compaction and cementation of sediment (pressure) or chemical precipitation in water.
6. The rock cycle is a conceptual model that depicts rock changing and rock forming processes.
Assessment Clarifications 1. All rocks are similar because they are composed of minerals.
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2. There are three different types of rocks—igneous, metamorphic, and sedimentary.
3. The three rock types are different in the way in which they are formed. Igneous rocks were formed from melted minerals that have cooled and hardened. Metamorphic rocks were formed by intense heat pressure and chemical reactions. Sedimentary rocks were formed from rocks and soil that have been pressed together and cemented together.
4. The rock cycle is a process of natural changes that cause one type of rock to become another type of rock.
Content Statement – E.SE.M.1 Soil – Soils consist of weathered rocks and decomposed organic materials from dead plants, animals, and bacteria. Soils are often found in layers with each having a different chemical composition and texture. Content Expectations E.SE.06.11 Explain how physical and chemical weathering lead to erosion and the formation of soils and sediments. Instructional Clarifications 1. Explain is to clearly describe by means of illustrations (drawing),
demonstrations, and/or verbally how physical and chemical weathering lead to erosion and the formation of soils and sediments.
unloading, and plants and organisms cause physical weathering. Abrasion occurs when water or wind carrying debris acts with a scouring action on rock surfaces. Freeze/thaw occurs when water is trapped in the spaces of rock and repeatedly frozen and thawed. Thermal expansion/contraction occurs when solar radiation causes minerals to heat and cool at various speeds producing stresses in rock over time.
4. Plant roots and the actions of organisms can also physically break down rocks.
5. Chemical processes cause chemical weathering. Water is the main agent at work in this process and causes the composition of the mineral or rock to change. Primary minerals in rock are broken down to secondary minerals and this material can be carried away in solution.
6. As soon as a rock particle is loosened by weathering and moves it is called erosion.
7. Eroded rock is one of the main components of soil. Assessment Clarifications 1. Weathering breaks down rock. 2. Abrasion, freeze-thaw, thermal expansion/contraction, pressure
unloading, and plants and organisms cause physical weathering. Abrasion occurs when water or wind carrying debris acts with a scouring action on
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rock surfaces. Freeze/thaw occurs when water is trapped in the spaces of rock and repeatedly frozen and thawed. Thermal expansion/contraction occurs when solar radiation causes minerals to heat and cool at various speeds producing stresses in rock over time.
3. Chemical processes cause chemical weathering. Water is the main agent at work in this process and causes the composition of the mineral or rock to change. Primary minerals in rock are broken down to secondary minerals and this material can be carried away in solution.
4. As soon as a rock particle is loosened by weathering and moves it is called erosion.
5. Eroded rock is one of the main components of soil. E.SE.06.12 Explain how waves, wind, water, and glacier movement shape and reshape the land surface of the Earth by eroding rock in some areas and depositing sediments in other areas. Instructional Clarifications 1. Explain is to clearly describe by means of illustrations (drawing),
demonstrations, and/or verbally how waves, wind, water, and glacier movement, shape and reshape the land surface of the Earth by eroding rock in some areas and depositing sediments in other areas.
2. Rock can be eroded by wind, water (including waves), and glacial movement.
3. Processes of erosion in part determine the shapes of landforms. 4. Fragments of rock that are produced by erosion and transported are
called sediment. 5. Sediment that is transported by the energy of wind or water is deposited
when that energy level decreases. Assessment Clarifications 1. Rock can be eroded by wind, water (including waves), and glacial
movement. 2. Processes of erosion in part determine the shapes of landforms. 3. Fragments of rock that are produced by erosion and transported are
called sediment. 4. Sediment that is transported by the energy of wind or water is deposited
when that energy level decreases. E.SE.06.13 Describe how soil is a mixture, made up of weather-eroded rock and decomposed organic material, water, and air. Instructional Clarifications 1. Describe is to tell or depict in spoken or written words how soil is a
mixture, made up of weathered eroded rock, decomposed organic material, water and air.
2. One of the components in soil is mineral, which is made from many tiny pieces of eroded rock.
3. Another component in the soil is the organic material that comes from decaying plants and animals.
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4. Minerals and organic material make up approximately half of soil. In addition there is air and water.
Assessment Clarifications 1. One of the components in soil is mineral, which is made from many tiny
pieces of eroded rock. 2. Another component in the soil is the organic material that comes from
decaying plants and animals. 3. Minerals and organic material make up approximately half of soil. In
addition there is air and water. E.SE.06.14 Compare and contrast different soil samples based on particle size. Instructional Clarifications 1. Compare and contrast means to show similarities and differences between
different soil samples based on particle size. 2. The main particle sizes of soil from largest to smallest are: sand, silt, and
clay. Assessment Clarifications 1. Compare and contrast means to show similarities and differences between
different soil samples based on particle size. 2. The main particle sizes of soil from largest to smallest are: sand, silt, and
clay. Content Statement – E.SE.M.6 Magnetic Field of Earth – Earth as a whole has a magnetic field that is detectable at the surface with a compass. Content Expectations E.SE.06.61 Describe the Earth as a magnet and compare and contrast the magnetic properties of the Earth to that of a natural or manufactured magnet. Instructional Clarifications 1. Describe is to tell or depict in spoken or written words how the Earth acts
as a magnet and compare and contrast means to show similarities and differences between the magnetic properties of the Earth and those of a natural or manufactured magnet.
2. The Earth acts as a giant magnet. 3. The Earth, like any natural or manufactured magnet, exhibits a north and
south magnetic pole. 4. The Earth’s liquid outer core spins as the Earth rotates creating a
magnetic field. Assessment Clarifications 1. The Earth acts as a giant magnet.
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2. The Earth like any natural or manufactured magnet exhibits a north and south magnetic pole.
E.SE.06.62 Explain how a compass works using the magnetic field of the Earth, and how a compass is used for navigation on land and sea. Instructional Clarifications 1. Explain is to clearly describe by means of illustrations (drawing),
demonstrations, and/or verbally how a compass works using the magnetic field of the Earth, and how a compass is used for navigation on land and sea.
2. A compass is composed of a small, light-weight magnet, called a needle, that is balanced on a point.
3. The Earth acts like a giant magnet and exhibits a north and south magnetic pole. One pole of the magnet will be attracted and point toward the North Pole. By convention this is called the north pole of the magnet.
4. Compasses can be used for navigation from any point on the Earth due to the Earth’s magnetic field.
Assessment Clarifications 1. A compass is composed of a small, lightweight magnet, called a needle
that is balanced on a point. 2. The Earth acts like a giant magnet and exhibits a north and south
magnetic pole. One pole of the magnet will be attracted and point toward the North Pole. By convention this is called the north pole of the magnet.
3. Compasses can be used for navigation from any point on the Earth due to the Earth’s magnetic field.
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Inquiry Process S.IP.06.11 Generate scientific questions based on observations, investigations, and research concerning rock samples. S.IP.06.12 Design and conduct scientific investigations to understand rock formation. S.IP.06.13 Use tools and equipment (models, thermometers) appropriate to scientific investigations of the rock cycle. S.IP.06.14 Use metric measurement devices in an investigation of rock formation and weathering. S.IP.06.15 Construct charts and graphs from data and observations dealing with erosion and soil formation. S.IP.06.16 Identify patterns in data dealing with erosion and soil formation. Inquiry Analysis and Communication S.IA.06.11 Analyze information from data tables and graphs to answer scientific questions on rock formation, erosion, and soil formation. S.IA.06.12 Evaluate data, claims, and personal knowledge through collaborative science discourse about erosion and the rock cycle. S.IA.06.13 Communicate and defend findings of observations and investigations about the rock cycle using evidence. S.IA.06.14 Draw conclusions from sets of data from multiple trials about Earth’s magnetic properties using scientific investigation. S.IA.06.15 Use multiple sources of information on Earth’s magnetic properties to evaluate strengths and weaknesses of claims, arguments, or data. Reflection and Social Implications S.RS.06.11 Evaluate the strengths and weaknesses of claims, arguments, and data regarding the magnetic properties of Earth. S.RS.06.12 Describe limitations in personal and scientific knowledge regarding the magnetic properties of Earth. S.RS.06.13 Identify the need for evidence in making scientific decisions. S.RS.06.14 Evaluate scientific explanations based on current evidence and scientific principles. S.RS.06.15 Demonstrate scientific concepts concerning the rock cycle through various illustrations, performances, models, exhibits, and activities. S.RS.06.16 Design solutions to problems on Earth’s magnetic properties using technology. S.RS.06.18 Describe what science and technology, in regards to erosion and Earth’s magnetic properties, can and cannot reasonably contribute to society. S.RS.06.19 Describe how science and technology of Earth’s magnetic properties have advanced because of the contributions of many people throughout history and across cultures.
Inquiry Process, Inquiry Analysis and Communication,Reflection and Social Implications
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Vocabulary
Critically Important – State Assessable Instructionally Useful
igneous metamorphic sedimentary rock cycle erosion minerals weathering soils sediments abrasion thermal expansion/contraction glaciers gravel sand silt clay organic material particle size magnetic field poles navigation
gradual formation
Instruments, Measurements, Representations
Magnets, compass
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Instructional Framework
The following Instructional Framework is an effort to clarify possible units within the K-7 Science Grade Level Content Expectations. The Instructional Framework provides descriptions of instructional activities that are appropriate for inquiry science in the classroom and meet the instructional goals. Included are brief descriptions of multiple activities that provide the learner with opportunities for exploration and observation, planning and conducting investigations, presenting findings, and expanding thinking beyond the classroom. The Instructional Framework is NOT a step-by-step instructional manual, but a guide intended to help teachers and curriculum developers design their own lesson plans, select useful and appropriate resources and create assessments that are aligned with the grade level science curriculum for the State of Michigan. Instructional Examples Rock Formation: E.SE.06.41, E.SE.06.11, E.SE.06.12, E.SE.06.13, E.SE.06.14, E.SE.06.61, E.SE.06.62 Objectives • Describe formation of rock types (igneous, metamorphic, and
sedimentary) and differences between the types - using the rock cycle model.
• Describe how physical and chemical weathering lead to erosion and the formation of soils and sediments.
• Explain how waves, wind, water, and glacier movement shape and reshape the land surface of the Earth by eroding rock in some areas and depositing sediments in other areas.
• Explain that soil is a mixture, made up of weather-eroded rock and decomposed organic material.
• Describe how soil samples can be characterized based on particle size and texture.
• Describe the Earth as a magnet and tell how the magnetic properties of the Earth are similar/different to natural or man-made magnets.
• Explain how a compass works using the magnetic field of the Earth, and how a compass is used for navigation on land and sea.
Engage and Explore
• Give each student a piece of bubble gum, and tell him or her it represents
a sedimentary rock. Have them put it in their mouth and begin chewing it. Ask the students to think scientifically about what they are doing to the gum (Leading questions: Is it cold inside their mouth? NO! Are they applying heat? YES! What is happening when their teeth come down on
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the gum? Are they applying pressure? So is the gum being changed? Yes!) Have students pull the gum out of their mouth and place it somewhere clean. (E.SE.06.41)
• Now open up a packet of Nerds or similar candy and pour some onto the gum. Then kind of squeeze or fold them into the gum. Hold up the gum and say this represents an igneous rock. Now have students place the gum (igneous rock) into their mouth and chew. Ask the students: What they are doing? Hopefully they will answer, applying heat and pressure. Here pressure is enough to crush the candy (crystals). Pull out the gum and say what this represents (metamorphic rock). Explain to the students that they have just modeled the rock cycle! (E.SE.06.41)
• Students can take sandstone and place it in a glass jar of water to model physical weathering. By shaking the jar vigorously for one minute they will find that sediment is created and that the rock has changed. Many other earth models can be used to show these concepts. Sand can be blown with straws, water can be dripped through cups with holes in them, ice blocks can be used to model glaciers, etc. (E.SE.06.11, E.SE.06.12)
• Have students use particle size charts (can be made or found online) to compare the particle sizes of various earth materials. Magnifiers and microscopes are helpful here. Texture of soil samples can also be explored at this time. (E.SE.06.14)
• Have students explore the Earth as a magnet using compasses. This can be done as a scavenger hunt activity outdoors. They can also make a temporary magnet and compass. (E.SE.06.61, E.SE.06.62)
Explain and Define • The students can now define the characteristics of each rock type.
(E.SE.06.41) • Types of physical and chemical weathering should be discussed and
defined here. (E.SE.06.11, E.SE.06.12) • After testing various samples of soil, the term soil should be properly
defined by the students. (E.SE.06.13) • Students should be able to describe how they used magnets on their
scavenger hunt to find certain objects and then discuss how they could use them to navigate on the sea. This is also a good time to discuss how the Earth compares to other magnets. (E.SE.06.61, E.SE.06.62)
Elaborate and Apply • Many examples of each rock type can now be explored and identified by
the students. (E.SE.06.41) • Students can be given various pictures of earth features and asked to
determine which earth process caused the earth to look this way and to describe the process. (E.SE.06.11, E.SE.06.12)
• Students could be taken to various outdoor sites and asked to determine the soil properties at each site. (E.SE.06.13)
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• Students could write a paper on the importance of using magnets for sea navigation throughout history. (E.SE.06.61, E.SE.06.62)
Evaluate Student Understanding Formative Assessment Examples • Check on students’ understanding as they classify rock types themselves. • Check student understandings on earth feature description work from
pictures. • Check for student understandings as students perform their own soil
properties tests. • Check for student understandings in their papers on sea navigation. Summative Assessment Examples • Give students real rock samples for them to classify as igneous,
metamorphic or sedimentary. • Students are shown various geological formations and asked to pick which
kind of earth process is responsible for this formation. • Various soils could be described and students could identify the type of
soil being described. • Students could be asked to explain how the Earth is similar to a natural
magnet. Students could also be asked to identify some useful properties of magnets.
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Enrichment
• Take the students to a rock quarry or site of geological interest and have
them create their own rock and mineral collection. At least three of each type should be included to complete their collection. E.SE.06.41
• Take the students to various sites and ask them to work in groups and try to explain the weathering forces at work to sculpt the land to look like it does. E.SE.06.11, E.SE.06.12
• Students could be given sand samples from various sites and asked to compare/contrast them with each other using particle size charts. E.SE.06.14
• The Earth’s magnetic field can be shown using a galvanometer and a 50-foot extension cord. Connect the galvanometer to the extension cord and swing in large arcs like a jump rope. Determine what is happening and why. E.SE.06.61, E.SE.06.62
Intervention
• For the rock cycle it may be important to show the model of the rock cycle more that one time. Gum and different candies should be used again. Also another good model would be using cookies to show the component parts of rock – chocolate chip cookies are often used for this. Taking trips and looking at real rocks outside will make this more authentic and repeating this many times makes it easier to do.
• There are many land changes around us. Taking walking trips to look at these changes and writing a list of what is observed is very powerful proof that these changes are real and occurring around us.
• Have students bring in samples of soil from around their house. By comparing these samples with other student samples in groups of four, students can start to see the differences and similarities between samples taken at different locations. Then students can look at the samples from other groups over the course of a few days and start to write down the observable properties. The teacher can guide and help build strategies to find these differences and define them.
• Some students need to have extended real experiences with magnets to determine their properties and start to understand non-contact forces. Once these properties are seen as consistent and useful they can be expanded upon and defined more easily by the student.
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Examples, Observations, and Phenomena (Real World Context)
Rock formation can provide us with glimpses into the way our world was formed. It can also provide us more locally with information on how our area was shaped. Changes in rock usually take thousands of years to happen; it is therefore important to show students the shorter-term changes we can see (like potholes in a road or the wearing down of their sled hill by the school). Soil quality is important for agriculture and therefore, for all people. By looking at the properties of soil we can begin to learn the properties that are most useful to growing various types of crops with the highest yields possible. Magnets were very important to the history of navigation by people on Earth. Without this tool many were lost at sea or did not attempt open sea voyages. They are still widely used today even with the increasing use of GPS systems for navigation. Magnets are also used in many electrical circuits, generators, and motors. Magnets are used in the generation of electricity at municipal power plants.
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Literacy Integration
Students will… Reading R.IT.06.01 analyze the structure, elements, features, style, and purpose of informational genre, including research reports, “how-to” articles, and essays. R.IT.06.03 explain how authors use text features including footnotes, bibliographies, introductions, summaries, conclusions, and appendices to enhance the understanding of central, key, and supporting ideas. R.CM.06.01 connect personal knowledge, experiences, and understanding of the world to themes and perspectives in text through oral and written responses. R.CM.06.02 retell through concise summarization grade-level narrative and informational text. R.CM.06.04 apply significant knowledge from grade-level science, social studies, and mathematics texts. Writing W.GN.06.03 formulate research questions using multiple resources and perspectives that allow them to organize, analyze, and explore problems and pose solutions that culminate in a final presented project using the writing process. W.PR.06.02 apply a variety of pre-writing strategies for both narrative and informational writing.
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Science Grade 6: General Inquiry Questions » Teacher Version
Directions: For each of the following questions, decide which of the choices is best and fill in the correspondingspace on the answer document.
1. Of the following statements, which best supportsthe continental drift theory?A. All oceans are salty.B. Igneous rocks are found on all continents.C. Fossils of the same species of extinct land
plants have been found in both SouthAmerica and Africa.
D. Early humans migrated to North Americaover a land bridge from eastern Asia.
4. Engineers have recently developed alternativefuels such as ethanol to power vehicles.Ethanol is a fuel that is made from corn or othercrops including wheat, barley, and potatoes. E85 isa mixture of 85% ethanol and 15% gasoline.What would be the greatest environmentaladvantage to using E85?
A. It has gasoline mixed in it.B. It is used to power vehicles.C. It is made mostly of renewable resources.D. It is made from crops that require powerful
5. Kim wanted to determine if certain seeds requiresunlight to germinate. She placed one seed ina moist paper towel in the sunlight and anotherseed in an equally moistened paper towel in a darkcloset. The seed in the sunlight germinated but theone in the closet did not. Kim reported to the classthat this type of seed needs sunlight in order togerminate.Given this information, which of the followingwould best describe an improvement in Kim'sexperiment that would strengthen her claim?A. Use many seeds to conduct the experiment.B. Start the samples on different days.C. Use different amounts of water.D. Place the seeds in new locations.
6. Which of the following provides the bestexplanation for how the use of oil as majorenergy sources can cause problems for futuregenerations?A. Oil is a non-renewable resource.B. Oil is composed of carbon atoms.C. Oil is used for production of electricity.D. Oil is a product of decomposed plants.
7. During a scientific investigation, when shouldmeasurements be recorded?A. when forming a hypothesisB. when designing an experimentC. when communicating resultsD. when gathering data
8. Joe determined the mass of four rock samples.Then, he put each rock sample in a cup of vinegarfor three days. The table below represents thedata he collected during his investigation.
Which of the following can be concluded from thetable above?A. Rocks 1 and 2 are the same type of rock.B. Rock 4 is a sedimentary rock.C. Rocks 3 and 4 are chemically changed.D. Rocks 1, 2, 3, and 4 are the same type.
9. As a hiker moves around in a cave, her compassneedle points in various directions. Which of thefollowing reasons best describes what is affectingthe accuracy of her compass?A. depth of the caveB. lack of light in the caveC. iron ore in the cave wallsD. cooler temperatures in the cave
10. Field mice have a varied diet that includes nuts,berries, seeds, and grain. A scientist studyingmice places four male field mice in separatebut identical cages. Each mouse is offeredfive different types of food: sunflower seeds,strawberries, rice, walnuts, and blackberries. Thescientist then observes and records the feedingbehavior of each mouse. The data are recordedin the table below. The number 1 indicates whichfood each mouse ate first, 2 indicates the secondtype of food, etc.
Based on the experimental design, what questionis the scientist most likely trying to answer?
A. What type of food do field mice prefer?B. Do walnuts affect the behavior of field
mice?C. How much food do field mice consume
annually?D. How do seeds affect the reproductive
success of field mice?ItemID kmorgan.2034Correct AStandard(s) SCI.6.S.IP.06.11 ( 6 )
11.A factory near the Big River operates everyday of the week. Residents to the east of theriver frequently complain of eye irritationwhile residents to the west of the river rarelyhave problems. What conclusion best fits thisinformation?
A. It rains less often on the east side of theriver than it does on the west side.
B. It rains more often on the east side of theriver than it does on the west side.
C. Smoke from the factory is being carried bywinds coming from the southeast.
D. Smoke from the factory is being carried bywinds coming from the northwest.
12. Scientists have used genetic engineering toproduce new types of grains and vegetables.These grains and vegetables can live in hottemperatures. Why is this research beneficial tohumans?
A. It could eliminate the need to fertilizecrops.
B. It makes crops more resistant to pollutants.C. It shows these crops are less likely to be
infested by insects and other pests.D. It indicates that these crops may grow in
13. In a forest in Hawaii, the ginger populationremained fairly constant until heavy rains causedit to increase from 1944 to 1947. In 1947, adisease that killed many of the ginger plants wasbrought into the forest. Which of the followingpopulation charts best represents this scenario?
4. Elizabeth collects different types of rockswhenever she goes on vacation. She has rocks thatcontain shiny crystals, grainy rocks, and rocks thatare smooth. These rocks are formed by differentprocesses. Which of the following is NOT a processby which rocks are formed?A. freezing of sedimentsB. compaction of sedimentsC. heat and pressure within EarthD. cooling of magma at Earth’s surface
5. Where do the Earth's magnetic field linesconverge?A. near the North Pole onlyB. near the South Pole onlyC. near the North and South PolesD. near the Equator only
6. Four students work in a group to learn how rocksare formed. The teacher gives each of them a bluecrayon and a red crayon and tells them to followthe steps on the board, as shown below.
Exercise: How Rocks Are Formed
Step
1. Break up the red and blue crayons intotiny pieces.
2. Put the pieces in your hand and squeezethem together to form a red-and-bluespeckled slab.
3. Place the slab in a beaker, and place thebeaker on a hot plate to melt the slab.
4. Place the beaker with the melted slab intoa bucket of ice to cool it down.Which step best represents how a sedimentaryrock is formed?
8. A farmer is having trouble because his field staystoo wet after it rains. Adding which of the followingto the soil will allow the water to drain the fastestafter it rains?A. sandB. clayC. fertilizerD. silt
9. Which of the following can be found in most soil?1. small organisms2. minerals3. water4. rock particlesA. 1, 2, and 3 onlyB. 1 and 2 onlyC. 2 and 4 onlyD. 1, 2, 3, and 4
11. Which of the following processes will produceigneous rocks?A. deposition of sedimentsB. volcanic actionC. earthquake activityD. erosion of surface rocks
6Welcome to Michigan’s K-7 Grade Level Content Expectations
Purpose & OverviewIn 2004, the Michigan Department of Education embraced the challenge of creating Grade Level Content Expectations in response to the Federal No Child Left Behind Act of 2001. This act mandated the existence of a set of comprehensive state grade level assessments in mathematics and English language arts that are designed based on rigorous grade level content. In addition, assessments for science in elementary, middle, and high school were required. To provide greater clarity for what students are expected to know and be able to do by the end of each grade, expectations for each grade level have been developed for science.
In this global economy, it is essential that Michigan students possess personal, social, occupational, civic, and quantitative literacy. Mastery of the knowledge and essential skills defined in Michigan’s Grade Level Content Expectations will increase students’ ability to be successful academically, and contribute to the future businesses that employ them and the communities in which they choose to live.
Reflecting best practices and current research, the Grade Level Content Expectations provide a set of clear and rigorous expectations for all students, and provide teachers with clearly defined statements of what students should know and be able to do as they progress through school.
DevelopmentIn developing these expectations, the K-7 Scholar Work Group depended heavily on the Science Framework for the 2009 National Assessment of Educational Progress (National Assessment Governing Board, 2006) which has been the gold standard for the high school content expectations. Additionally, the National Science Education Standards (National Research Council, 1996), the Michigan Curriculum Framework in Science (2000 version), and the Atlas for Science Literacy, Volumes One (AAAS, 2001) and Two (AAAS, 2007), were all continually consulted for developmental guidance. As a further resource for research on learning progressions and curricular designs, Taking Science to School: Learning and Teaching Science in Grades K-8 (National Research Council, 2007) was extensively utilized. The following statement from this resource was a guiding principle:
“The next generation of science standards and curricula at the national and state levels should be centered on a few core ideas and should expand on them each year, at increasing levels of complexity, across grades K-8. Today’s standards are still too broad, resulting in superficial coverage of science that fails to link concepts or develop them over successive grades.”
Michigan’s K-7 Scholar Work Group executed the intent of this statement in the development of “the core ideas of science...the big picture” in this document.
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CurriculumUsing this document as a focal point in the school improvement process, schools and districts can generate conversations among stakeholders concerning current policies and practices to consider ways to improve and enhance student achievement. Together, stakeholders can use these expectations to guide curricular and instructional decisions, identify professional development needs, and assess student achievement.
AssessmentThe Science Grade Level Content Expectations document is intended to be a curricular guide with the expectations written to convey expected performances by students. Science will continue to be assessed in grades five and eight for the Michigan Educational Assessment Program (MEAP) and MI-Access.
Preparing Students for Academic SuccessIn the hands of teachers, the Grade Level Content Expectations are converted into exciting and engaging learning for Michigan’s students. As educators use these expectations, it is critical to keep in mind that content knowledge alone is not sufficient for academic success. Students must also generate questions, conduct investigations, and develop solutions to problems through reasoning and observation. They need to analyze and present their findings which lead to future questions, research, and investigations. Students apply knowledge in new situations, to solve problems by generating new ideas, and to make connections between what they learn in class to the world around them.
Through the collaborative efforts of Michigan educators and creation of professional learning communities, we can enable our young people to attain the highest standards, and thereby open doors for them to have fulfilling and successful lives.
Understanding the Organizational StructureThe science expectations in this document are organized into disciplines, standards, content statements, and specific content expectations. The content statements in each science standard are broader, more conceptual groupings. The skills and content addressed in these expectations will, in practice, be woven together into a coherent, science curriculum.
To allow for ease in referencing expectations, each expectation has been coded with a discipline, standard, grade-level, and content statement/expectation number.
For example, P.FM.02.34 indicates:
P - Physical Science Discipline
FM-Force and Motion Standard
02-Second Grade
34-Fourth Expectation in the Third Content Statement
Content statements are written and coded for Elementary and Middle School Grade Spans. Not all content expectations for the content statement will be found in each grade.
Why Create a 1.09 Version of the Expectations?The Office of School Improvement is committed to creating the best possible product for educators. This committment served as the impetus for revision of the 12.07 edition. This new version, v.1.09, refines and clarifies the original expectations, while preserving their essence and original intent and reflects the feedback from educators across the state during the past year.
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Middle School (5-7) Science Organizational Structure
Discipline 1
Science Processes
Discipline 2
Physical Science
Discipline 3
Life Science
Discipline 4
Earth Science
Standards and Statements (and number of Content Expectations in each Statement)
Inquiry Process (IP)
Inquiry Analysis and Communication (IA)
Reflection and Social Implications (RS)
Force and Motion (FM)
Force Interactions (2)
Force (4)
Speed (3)
Energy (EN)
Kinetic and Potential
Energy (2)
Waves and Energy (3)
Energy Transfer (3)
Solar Energy Effects
(2)
Properties of Matter (PM)
Chemical Properties
(1)
Elements and
Compounds (4)
Changes in Matter (CM)
Changes in State (2)
Chemical Changes (3)
Organization of Living Things (OL)
Cell Functions (4)
Growth and
Development (2)
Animal Systems (2)
Producers,
Consumers, and
Decomposers (2)
Photosynthesis (3)
Heredity (HE)
Inherited and
Acquired Traits (2)
Reproduction (2)
Evolution (EV)
Species Adaptation
and Survival (4)
Relationships Among
Organisms (1)
Ecosystems (EC)
Interactions of
Organisms (1)
Relationships of
Organisms (3)
Biotic and Abiotic
Factors (2)
Environmental
Impact of Organisms
(2)
Earth Systems (ES)
Solar Energy (3)
Human
Consequences (2)
Seasons (2)
Weather and Climate
(4)
Water Cycle (2)
Solid Earth (SE)
Soil (4)
Rock Formation (1)
Plate Tectonics (3)
Magnetic Field of
Earth (2)
Fluid Earth (FE)
Atmosphere (2)
Earth in Space and Time (ST)
Solar System (1)
Solar System Motion
(5)
Fossils (1)
Geologic Time (2)
Science Processes: Inquiry Process, Inquiry Analysis and Communication, Reflection, and Social ImplicationsSixth grade students have had multiple experiences in science inquiry, practice in investigating a question, and the selection of a variety of resources for information gathering and problem solving. Through the grade level science processes, students gain a greater understanding of the nature and structure of scientific knowledge and the process of its development. Throughout the middle school years, students should be provided with the opportunity to engage in full inquiry experiences that include raising a question based on observations, data sets, and/or research, designing an investigation, gathering information through observation and data collection, analyzing and evaluating information, engaging in science discourse, and formally presenting their findings. Sixth grade students need guidance and practice in the identification of variables and controlling more than one variable in an investigation. They need clarification in recognizing the difference between a scientific explanation and evidence.
With appropriate guidance and experiences, sixth grade students can recognize science as a means of gathering information and confirming or challenging their current beliefs about the natural world, the effect humans and other organisms have on the natural world, and begin to design solutions through science and technology to world challenges.
Physical Science: Energy and Changes in Matter
Students enter the sixth grade with the knowledge of different forms of energy (sound, light, heat, electrical, and magnetic). They have had the opportunity to explore properties of sound and light, observe heat transfer, construct a simple circuit, observe the interaction between magnetic and non-magnetic material, and finally make an electro-magnetic motor. Sixth grade students deepen their understanding of energy through investigations into kinetic and potential energy and the demonstration of the transformation of kinetic energy. Through the investigation of energy transfer by radiation, conduction, or convection, students are introduced to the concept that energy can be transferred while no energy is lost or gained. Students begin to see the connections among light, heat, sound, electricity, and magnetism. They gain an understanding that energy is an important property of substances and that most changes observed involve an energy transfer. Students will understand energy by observing multiple forms of energy transfer and begin to dispel the misconception that energy is linked to fuel or something that is stored, ready to use, and gets consumed.
Sixth grade students also build on their understanding of changes in matter by exploring states in terms of the arrangement and motion of atoms and molecules. They are given the opportunity to design investigations that provide evidence that mass is conserved as it changes from state to state.
Life Science: Organization of Living Things and EcosystemsThe study of life science in the elementary curriculum has introduced students to roles organisms play in a food web, their needs to survive, and the physical and behavioral characteristics that help them survive. The elementary student has a beginning understanding of the dependency of organisms on one another and balance in an ecosystem’s food web. Sixth grade students build on their prior knowledge by exploring classifications of organisms based on their source of energy (producers, consumers, and decomposers) and distinguish between ways in which organisms obtain energy. The study of ecosystems at this level includes interactions of organisms within populations, communities, and ecosystems including examples in the Great Lakes region. Students recognize patterns in ecosystems and broaden their understanding from the way one species lives in an environment to how populations and communities interact. They explore how populations can be mutually beneficial and how that relationship can lead to interdependency.
The final course of study in ecosystems for the sixth grader includes biotic and abiotic factors in an ecosystem that influence change. Included is the consequence of overpopulation of a species, including humans. Students explore how humans affect change, purposefully and accidentally, and recognize possible consequences for activity and development.
Earth Science: Solid Earth, Earth in Space and TimeSixth grade students develop a deeper understanding of the Earth through the exploration of the rock cycle, phenomena that shape the Earth, and Earth’s history. In the elementary curriculum, students observed a variety of Earth materials and identified different properties that help sustain life. Sixth grade students explore the formation and weathering of rocks and how different soil types are formed. Their knowledge continues through study of movement of lithospheric plates, major geological events, and layers of the Earth. Students are introduced to the concept of the Earth as a magnet.
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The Earth science curriculum includes a deeper exploration into rocks, rock layers, and fossils. They provide evidence of the history of the Earth and are used to measure geologic time. Fossils provide evidence of how life and environmental conditions have changed over long periods of time.
The concept of energy in the sixth grade curriculum is integral throughout the study in physical, life, and Earth science. Students gain a deeper understanding of the concept when encouraged to apply what they know about energy transfer to energy in ecosystems and the rapid and gradual changes on Earth.
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Sixth Grade Science Standards, Statements, and Expectations
Note: The number in parentheses represents the number of expectations..
Discipline 1: Science Processes (S) Standard: Inquiry Process (IP) 1 Statement (6) Standard: Inquiry Analysis and Communication (IA) 1 Statement (5) Standard: Reflection and Social Implications (RS) 1 Statement (9)
Discipline 2: Physical Science (P) Standard: Energy (EN) Kinetic and Potential Energy (2) Energy Transfer (2) Standard: Changes in Matter (CM) Changes in State (2)
Discipline 3: Life Science (L) Standard: Organization of Living Things (OL) Producers, Consumers, and Decomposers (2) Standard: Ecosystems (EC) Interactions of Organisms (1) Relationships of Organisms (3) Biotic and Abiotic Factors (2) Environmental Impact of Organisms (2)
Discipline 4: Earth Science (E) Standard: Solid Earth (SE) Soil (4) Rock Formation (1) Plate Tectonics (3) Magnetic Field of Earth (2) Standard: Earth in Space and Time (ST) Fossils (1) Geologic Time (2)
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SCIENCE PROCESSES Inquiry Process
K-7 Standard S.IP: Develop an understanding that scientific inquiry and reasoning involves observing, questioning, investigating, recording, and developing solutions to problems.
S.IP.M.1 Inquiry involves generating questions, conducting investigations, and developing solutions to problems through reasoning and observation.
S.IP.06.11 Generate scientific questions based on observations, investigations, and research. S.IP.06.12 Design and conduct scientific investigations. S.IP.06.13 Use tools and equipment (spring scales, stop watches, meter sticks and tapes, models, hand lens, thermometer, models, sieves, microscopes) appropriate to scientific investigations. S.IP.06.14 Use metric measurement devices in an investigation. S.IP.06.15 Construct charts and graphs from data and observations. S.IP.06.16 Identify patterns in data.
Inquiry Analysis and Communication
K-7 Standard S.IA: Develop an understanding that scientific inquiry and investigations require analysis and communication of findings, using appropriate technology. S.IA.M.1 Inquiry includes an analysis and presentation of findings that lead to future questions, research, and investigations.
S.IA.06.11 Analyze information from data tables and graphs to answer scientific questions. S.IA.06.12 Evaluate data, claims, and personal knowledge through collaborative science discourse. S.IA.06.13 Communicate and defend findings of observations and investigations using evidence. S.IA.06.14 Draw conclusions from sets of data from multiple trials of a scientific investigation. S.IA.06.15 Use multiple sources of information to evaluate strengths and weaknesses of claims, arguments, or data.
Reflection and Social Implications
K-7 Standard S.RS: Develop an understanding that claims and evidence for their scientific merit should be analyzed. Understand how scientists decide what constitutes scientific knowledge. Develop an understanding of the importance of reflection on scientific knowledge and its application to new situations to better understand the role of science in society and technology. S.RS.M.1 Reflecting on knowledge is the application of scientific knowledge to new and different situations. Reflecting on knowledge requires careful analysis of evidence that guides decision-making and the application of science throughout history and within society.
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S.RS.06.11 Evaluate the strengths and weaknesses of claims, arguments, and data. S.RS.06.12 Describe limitations in personal and scientific knowledge. S.RS.06.13 Identify the need for evidence in making scientific decisions. S.RS.06.14 Evaluate scientific explanations based on current evidence and scientific principles. S.RS.06.15 Demonstrate scientific concepts through various illustrations, performances, models, exhibits, and activities. S.RS.06.16 Design solutions to problems using technology. S.RS.06.17 Describe the effect humans and other organisms have on the balance of the natural world. S.RS.06.18 Describe what science and technology can and cannot reasonably contribute to society. S.RS.06.19 Describe how science and technology have advanced because of the contributions of many people throughout history and across cultures.
PHYSICAL SCIENCE Energy
K-7 Standard P.EN: Develop an understanding that there are many forms of energy (such as heat, light, sound, and electrical) and that energy is transferable by convection, conduction, or radiation. Understand energy can be in motion, called kinetic; or it can be stored, called potential. Develop an understanding that as temperature increases, more energy is added to a system. Understand nuclear reactions in the sun produce light and heat for the Earth.
P.EN.M.1 Kinetic and Potential Energy- Objects and substances in motion have kinetic energy. Objects and substances may have potential energy due to their relative positions in a system. Gravitational, elastic, and chemical energy are all forms of potential energy.
P.EN.06.11 Identify kinetic or potential energy in everyday
situations (for example: stretched rubber band, objects in motion, ball on a hill, food energy).
P.EN.06.12 Demonstrate the transformation between potential and kinetic energy in simple mechanical systems (for example: roller coasters, pendulums).
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P.EN.M.4 Energy Transfer- Energy is transferred from a source to a receiver by radiation, conduction, and convection. When energy is transferred from one system to another, the quantity of energy before the transfer is equal to the quantity of energy after the transfer. *
P.EN.06.41 Explain how different forms of energy can be transferred from one place to another by radiation, conduction, or convection.
P.EN.06.42 Illustrate how energy can be transferred while no energy is lost or gained in the transfer. Changes in Matter
K-7 Standard P.CM: Develop an understanding of changes in the state of matter in terms of heating and cooling, and in terms of arrangement and relative motion of atoms and molecules. Understand the differences between physical and chemical changes. Develop an understanding of the conservation of mass. Develop an understanding of products and reactants in a chemical change. P.CM.M.1 Changes in State- Matter changing from state to state can be explained by using models which show that matter is composed of tiny particles in motion. When changes of state occur, the atoms and/or molecules are not changed in structure. When the changes in state occur, mass is conserved because matter is not created or destroyed.
P.CM.06.11 Describe and illustrate changes in state, in terms of the arrangement and relative motion of the atoms or molecules. P.CM.06.12 Explain how mass is conserved as a substance changes from state to state in a closed system. *
LIFE SCIENCE Organization of Living Things
K-7 Standard L.OL: Develop an understanding that plants and animals (including humans) have basic requirements for maintaining life which include the need for air, water, and a source of energy. Understand that all life forms can be classified as producers, consumers, or decomposers as they are all part of a global food chain where food/energy is supplied by plants which need light to produce food/energy. Develop an understanding that plants and animals can be classified by observable traits and physical characteristics. Understand that all living organisms are composed of cells and they exhibit cell growth and division. Understand that all plants and animals have a definite life cycle, body parts, and systems to perform specific life functions.
* Revised expectations marked by an asterisk.
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L.OL.M.5 Producers, Consumers, and Decomposers – Producers are mainly green plants that obtain energy from the sun by the process of photosynthesis. All animals, including humans, are consumers that meet their energy needs by eating other organisms or their products. Consumers break down the structures of the organisms they eat to make the materials they need to grow and function. Decomposers, including bacteria and fungi, use dead organisms or their products to meet their energy needs. *
L.OL.06.51 Classify producers, consumers, and decomposers based on their source of food (the source of energy and building materials). * L.OL.06.52 Distinguish between the ways in which consumers and decomposers obtain energy. Ecosystems
K-7 Standard L.EC: Develop an understanding of the interdependence of the variety of populations, communities and ecosystems, including those in the Great Lakes region. Develop an understanding of different types of interdependence and that biotic (living) and abiotic (non-living) factors affect the balance of an ecosystem. Understand that all organisms cause changes, some detrimental and others beneficial, in the environment where they live.
L.EC.M.1 Interactions of Organisms- Organisms of one species form a population. Populations of different organisms interact and form communities. Living communities and nonliving factors that interact with them form ecosystems.
L.EC.06.11 Identify and describe examples of populations, communities, and ecosystems including the Great Lakes region. *
L.EC.M.2 Relationships of Organisms- Two types of organisms may interact with one another in several ways: they may be in a producer/consumer, predator/ prey, or parasite/host relationship. Some organisms may scavenge or decompose another. Relationships may be competitive or mutually beneficial. Some species have become so adapted to each other that neither could survive without the other. L.EC.06.21 Describe common patterns of relationships between and among populations (competition, parasitism, symbiosis, predator/prey). L.EC.06.22 Explain how two populations of organisms can be mutually beneficial and how that can lead to interdependency. L.EC.06.23 Predict how changes in one population might affect other populations based upon their relationships in the food web. * Revised expectations marked by an asterisk.
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L.EC.M.3 Biotic and Abiotic Factors- The number of organisms and populations an ecosystem can support depends on the biotic (living) resources available and abiotic (nonliving) factors, such as quality of light and water, range of temperatures, and soil composition.
L.EC.06.31 Identify the living (biotic) and nonliving (abiotic) components of an ecosystem. L.EC.06.32 Identify the factors in an ecosystem that influence changes in population size. L.EC.M.4 Environmental Impact of Organisms- All organisms (including humans) cause change in the environment where they live. Some of the changes are harmful to the organism or other organisms, whereas others are helpful.
L.EC.06.41 Describe how human beings are part of the ecosystem of the Earth and that human activity can purposefully, or accidentally, alter the balance in ecosystems. L.EC.06.42 Predict possible consequences of overpopulation of organisms, including humans, (for example: species extinction, resource depletion, climate change, pollution).
EARTH SCIENCE Solid Earth
K-7 Standard E.SE: Develop an understanding of the properties of Earth materials and how those properties make materials useful. Understand gradual and rapid changes in Earth materials and features of the surface of Earth. Understand magnetic properties of Earth. E.SE.M.1 Soil- Soils consist of weathered rocks and decomposed organic materials from dead plants, animals, and bacteria. Soils are often found in layers with each having a different chemical composition and texture.
E.SE.06.11 Explain how physical and chemical weathering lead to erosion and the formation of soils and sediments. E.SE.06.12 Explain how waves, wind, water, and glacier movement, shape and reshape the land surface of the Earth by eroding rock in some areas and depositing sediments in other areas. E.SE.06.13 Describe how soil is a mixture made up of weather eroded rock and decomposed organic material. E.SE.06.14 Compare different soil samples based on particle size and texture.
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E.SE.M.4 Rock Formation- Rocks and rock formations bear
evidence of the minerals, materials, temperature/pressure conditions, and forces that created them.
E.SE.06.41 Compare and contrast the formation of rock types (igneous, metamorphic, and sedimentary) and demonstrate the similarities and differences using the rock cycle model.
E.SE.M.5 Plate Tectonics- The lithospheric plates of the Earth constantly move, resulting in major geological events, such as earthquakes, volcanic eruptions, and mountain building.
E.SE.06.51 Explain plate tectonic movement and how the lithospheric plates move centimeters each year.
E.SE.06.52 Demonstrate how major geological events (earthquakes, volcanic eruptions, mountain building) result from these plate motions.
E.SE.06.53 Describe layers of the Earth as a lithosphere (crust and upper mantle), convecting mantle, and dense metallic core.
E.SE.M.6 Magnetic Field of Earth- Earth as a whole has a magnetic field that is detectable at the surface with a compass.
E.SE.06.61 Describe the Earth as a magnet and compare the magnetic properties of the Earth to that of a natural or manufactured magnet. *
E.SE.06.62 Explain how a compass works using the magnetic field of the Earth, and how a compass is used for navigation on
land and sea.
Earth in Space and Time K-7 Standard E.ST: Develop an understanding that the sun is the
central and largest body in the solar system and that Earth and other objects in the sky move in a regular and predictable motion around the sun. Understand that those motions explain the day, year, moon phases, eclipses and the appearance of motion of objects across the sky. Understand that gravity is the force that keeps the planets in orbit around the sun and governs motion in the solar system. Develop an understanding that fossils and layers of Earth provide evidence of the history of Earth’s life forms, changes over long periods of time, and theories regarding Earth’s history and continental drift.
E.ST.M.3 Fossils- Fossils provide important evidence of how life and environmental conditions have changed in a given location.
E.ST.06.31 Explain how rocks and fossils are used to understand the age and geological history of the Earth (timelines and relative dating, rock layers).
* Revised expectations marked by an asterisk.
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E.ST.M.4 Geologic Time- Earth processes seen today (erosion,
mountain building, and glacier movement) make possible the measurement of geologic time through methods such as observing rock sequences and using fossils to correlate the sequences at various locations.
E.ST.06.41 Explain how Earth processes (erosion, mountain building,
and glacier movement) are used for the measurement of geologic time through observing rock layers.
E.ST.06.42 Describe how fossils provide important evidence of how life and environmental conditions have changed.
6R E A D I N G
W R I T I N G
S P E A K I N G
L I S T E N I N G
V I E W I N G
ELA
GRADE LEVELCONTENTEXPECTATIONS
S I X T H G R A D E E N G L I S H L A N G U A G E A R T S
Office of School Improvement
www.michigan.gov/mde
v.12.05
Welcome to Michigan’s K-8 Grade Level Content Expectations
Purpose & OverviewIn 2004, the Michigan Department of Education embraced the challenge of creating Grade Level Content Expectations in response to the federal No Child Left Behind Act of 2001. This act mandated the existence of a set of comprehensive state grade level assessments that are designed based on rigorous grade level content.
In this global economy, it is essential that Michigan students possess personal, social, occupational, civic, and quantitative literacy. Mastery of the knowledge and essential skills defined in Michigan’s Grade Level Content Expectations will increase students’ ability to be successful academically, contribute to the future businesses that employ them and the communities in which they choose to live.
The Grade Level Content Expectations build from the Michigan Curriculum Framework and its Teaching and Assessment Standards. Reflecting best practices and current research, they provide a set of clear and rigorous expectations for all students and provide teachers with clearly defined statements of what students should know and be able to do as they progress through school.
Why Create a 12.05 Version of the Expectations?The Office of School Improvement is committed to creating the best possible product for educators. This commitment served as the impetus for the revision of the 6.04 edition that was previously released in June of 2004. This new version, v.12.05, refines and clarifies the original expectations, while preserving their essence and original intent. As education continues to evolve, it is important to remember that each curriculum document should be considered as a work in progress, and will continue to be refined to improve the quality.
The revision process greatly improved the continuity from one grade to the next, and better ensured coherence both in content and pedagogy. To obtain more specific details about the revisions, please refer to the addendum included in this document. The forward of the Across the Grades v.12.05 companion document also clarifies the types of changes made. Educators can access the Across the Grades companion document by visiting the Michigan Department of Education Grade Level Content Expectations web page at www.michigan.gov/glce.
AssessmentThe Grade Level Content Expectations document is intended to be a state assessment tool with the expectations written to convey expected performances by students. The Office of Assessment and Accountability was involved in the development of version 12.05 and has incorporated the changes in the construction of test and item specifications for the K-8 Michigan Education Assessment Program (MEAP) and MI-Access. This updated version will assist us in the creation of companion documents, content examples, and to guide program planners in focusing resources and energy.
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CurriculumUsing this document as a focal point in the school improvement process, schools and districts can generate conversations among stakeholders concerning current policies and practices to consider ways to improve and enhance student achievement. Together, stakeholders can use these expectations to guide curricular and instructional decisions, identify professional development needs, and assess student achievement.
Understanding the Organizational StructureThe expectations in this document are divided into strands with multiple domains within each, as shown below. The skills and content addressed in these expectations will in practice be woven together into a coherent, English language arts curriculum. Beyond the English language arts curriculum, students will use the skills and processes to support learning in all content areas.
To allow for ease in referencing expectations, each expectation has been coded with a strand, domain, grade-level, and expectation number. For example, R.NT.00.01 indicates:
R - Reading Strand
NT -Narrative Text Domain
00 - Kindergarten Expectation
01- First Expectation in the Grade-Level Narrative Text Domain
Strand 1 Reading
Strand 2 Writing
Strand 3 Speaking
Strand 4 Listening & Viewing
Domains
Word Recognition and Word Study (WS)
• Phonemic Awareness
• Phonics
• Word Recognition
• Vocabulary
Fluency (FL)
Narrative Text (NT)
Informational Text (IT)
Comprehension (CM)
Metacognition (MT)
Critical Standards (CS)
Reading Attitude (AT)
Genre (GN)
Process (PR)
Personal Style (PS)
Grammar & Usage (GR)
Spelling (SP)
Handwriting (HW)
Writing Attitude (AT)
Conventions (CN)
Discourse (DS)
Conventions (CN)
Response (RP)
Preparing Students for Academic SuccessWithin the hands of teachers, the Grade Level Content Expectations are converted into exciting and engaging learning for Michigan’s students. As we use these expectations to develop units of instruction and plan instructional delivery, it is critical to keep in mind that content knowledge alone is not sufficient for academic success. Students must be able to apply knowledge in new situations, to solve problems by generating new ideas, and to make connections between what they learn in class to the world around them. The art of teaching is what makes the content of learning become a reality.
Through the collaborative efforts of Michigan educators and creation of professional learning communities, we can enable our young people to attain the highest standards, and thereby open doors for them to have fulfilling and successful lives.
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R E A D I N G Word Recognition and Word Study
Word Recognition
Students will…
R.WS.06.01 explain and use word structure, sentence structure, and prediction to aid in decoding and understanding the meanings of words encountered in context.
R.WS.06.02 use structural, syntactic, and semantic analysis to recognize unfamiliar words in context including origins and meanings of foreign words, words with multiple meanings, and knowledge of major word chunks/rimes, and syllabication.
R.WS.06.03 automatically recognize frequently encountered words in print with the number of words that can be read fluently increasing steadily across the school year.
R.WS.06.04 know the meanings of words encountered frequently in grade-level reading and oral language contexts.
R.WS.06.05 acquire and apply strategies to identify unknown words and construct meaning.
Fluency
Students will…
R.WS.06.06 fluently read beginning grade-level text and increasingly demanding texts as the year proceeds.
Vocabulary
Students will…
R.WS.06.07 in context, determine the meaning of words and phrases including regional idioms, literary and technical terms, and content vocabulary using strategies including connotation, denotation, and authentic content-related resources.
Narrative Text
Students will…
R.NT.06.01 describe how characters form opinions about one another in ways that can be fair and unfair in classic, multicultural, and contemporary literature recognized for quality and literary merit.
R.NT.06.02 analyze the structure, elements, style, and purpose of narrative genre including folktales, fantasy, adventure, and action stories.
R.NT.06.03 analyze how dialogue enhances the plot, characters, and themes; differentiates major and minor characters; and builds climax.
R.NT.06.04 analyze how authors use literary devices including dialogue, imagery, mood, and understatement to develop the plot, characters, point of view, and theme.
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Informational Text
Students will…
R.IT.06.01 analyze the structure, elements, features, style, and purpose of informational genre, including research reports, “how-to” articles, and essays.
R.IT.06.02 analyze organizational text patterns including descriptive, chronological sequence, and problem/solution.
R.IT.06.03 explain how authors use text features including footnotes, bibliographies, introductions, summaries, conclusions, and appendices to enhance the understanding of central, key, and supporting ideas.
Comprehension
Students will…
R.CM.06.01 connect personal knowledge, experiences, and understanding of the world to themes and perspectives in text through oral and written responses.
R.CM.06.02 retell through concise summarization grade-level narrative and informational text.
R.CM.06.03 analyze global themes, universal truths and principles within and across texts to create a deeper understanding by drawing conclusions, making inferences, and synthesizing.
R.CM.06.04 apply significant knowledge from grade-level science, social studies, and mathematics texts.
Metacognition
Students will…
R.MT.06.01 self-monitor comprehension when reading or listening to text by automatically applying and discussing the strategies used by mature readers to increase comprehension including: predicting, constructing mental images, visually representing ideas in text, questioning, rereading or listening again if uncertain about meaning, inferring, summarizing, and engaging in interpretive discussions.
R.MT.06.02 plan, monitor, regulate, and evaluate skills, strategies, and processes for their own reading comprehension by applying appropriate metacognitive skills such as SQP3R and pattern guides.
Critical Standards
Students will…
R.CS.06.01 compare the appropriateness of shared, individual and expert standards based on purpose, context, and audience in order to assess their own writing and the writing of others.
Reading Attitude
Students will…
R.AT.06.01 be enthusiastic about reading and do substantial reading and writing on their own.
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W R I T I N G Writing Genre
Students will…
W.GN.06.01 write a cohesive narrative piece such as a personal narrative, adventure, tall tale, folktale, fantasy, or poetry that includes appropriate conventions to the genre, employing elements of characterization for major and minor characters; internal and/or external conflict; and issues of plot, theme, and imagery.
W.GN.06.02 write a personal, persuasive, or comparative essay that includes organizational patterns supporting key ideas.
W.GN.06.03 formulate research questions using multiple resources and perspectives that allow them to organize, analyze, and explore problems and pose solutions that culminate in a final presented project using the writing process.
Writing Process
Students will…
W.PR.06.01 set a purpose, consider audience, and replicate authors’ styles and patterns when writing a narrative or informational piece.
W.PR.06.02 apply a variety of pre-writing strategies for both narrative (e.g., graphic organizers designed to develop a plot that includes major and minor characters, builds climax, and uses dialogue to enhance a theme) and informational writing (e.g., problem/solution or sequence).
W.PR.06.03 revise drafts for clarity, coherence, and consistency in content, voice, and genre characteristics with audience and purpose in mind.
W.PR.06.04 draft focused ideas for a specific purpose using multiple paragraphs, sentence variety, and voice to meet the needs of an audience (e.g., word choice, level of formality, and use of example) when writing compositions.
W.PR.06.05 proofread and edit writing using grade-level checklists and other appropriate resources both individually and in groups.
Personal Style
Students will…
W.PS.06.01 exhibit personal style and voice to enhance the written message in both narrative (e.g., personification, humor, element of surprise) and informational writing (e.g., emotional appeal, strong opinion, credible support).
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Grammar and Usage
Students will…
W.GR.06.01 in the context of writing, correctly use style conventions (e.g., Modern Language Association Handbook) and a variety of grammatical structures in writing including indefinite and predicate pronouns; transitive and intransitive verbs; adjective and adverbial phrases; adjective and adverbial subordinate clauses; comparative adverbs and adjectives; superlatives, conjunctions; compound sentences; appositives; independent and dependent clauses; introductory phrases; periods; commas; quotation marks; and use of underlining and italics for specific purposes.
Spelling
Students will…
W.SP.06.01 in the context of writing, correctly spell frequently encountered and frequently misspelled words.
Handwriting
Students will…
W.HW.06.01 write neat and legible compositions.
Writing Attitude
Students will…
W.AT.06.01 be enthusiastic about writing and learning to write.
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S P E A K I N G Conventions
Students will…
S.CN.06.01 adjust their use of language to communicate effectively with a variety of audiences and for different purposes by asking and responding to questions and remarks to engage the audience when presenting.
S.CN.06.02 speak effectively using rhyme, rhythm, cadence, and word play for effect in narrative and informational presentations.
S.CN.06.03 present in standard American English if it is their first language. (Students whose first language is not English will present in their developing version of standard American English.)
Discourse
Students will…
S.DS.06.01 engage in interactive, extended discourse to socially construct meaning in book clubs, literature circles, partnerships, or other conversation protocols.
S.DS.06.02 respond to multiple text types in order to compare/contrast ideas, form, and style; to evaluate quality; take a stand and support an issue; and to identify personally with a universal theme.
S.DS.06.03 discuss written narratives that include a variety of literary and plot devices (e.g., established context plot, point of view, sensory details, dialogue, and suspense).
S.DS.06.04 plan a focused and coherent informational presentation using an informational organizational pattern (e.g., problem/solution, sequence); select a focus question to address and organize the message to ensure that it matches the intent and the audience to which it will be delivered.
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L I S T E N I N G Conventions
& V I E W I N G Students will…
L.CN.06.01 respond to, evaluate, and analyze the speaker’s effectiveness and content when listening to or viewing a variety of speeches and presentations.
L.CN.06.02 listen to or view critically while demonstrating appropriate social skills of audience behaviors (e.g., eye contact, attentive, supportive); critically examine the verbal and non-verbal strategies during speeches and presentations.
Response
Students will…
L.RP.06.01 listen to or view knowledgeably a variety of genre to summarize, take notes on key points, and ask clarifying questions.
L.RP.06.02 select, listen to or view knowledgeably, and respond thoughtfully to both classic and contemporary texts recognized for quality and literary merit.
L.RP.06.03 identify a speaker’s affective communication expressed through tone, mood, and emotional cues.
L.RP.06.04 relate a speaker’s verbal communications (e.g., tone of voice) to the non-verbal message communicated (e.g., eye contact, posture, and gestures).
L.RP.06.05 respond to multiple text types when listened to or viewed knowledgeably, by discussing, illustrating, and/or writing in order to compare/contrast similarities and differences in idea, form, and style to evaluate quality and to identify personal and universal themes.
L.RP.06.06 respond to, evaluate, and analyze the credibility of a speaker who uses persuasion to affirm his/her point of view in a speech or presentation.
L.RP.06.07 identify persuasive and propaganda techniques used in television, and identify false and misleading information.
6 MA
THGRADE LEVEL
CONTENTEXPECTATIONS
M A T H E M A T I C S
Office of School Improvement
www.michigan.gov/mde
v . 1 2 . 0 5
G E O M E T R Y
A L G E B R A
M E A S U R E M E N T
DATA & PROBABILITY
NUMBER & OPERATIONS
S I X T H G R A D E
Welcome to Michigan’s K-8 Grade Level Content Expectations
Purpose & Overview
In 2004, the Michigan Department of Education embraced the challenge of creating Grade Level Content Expectations in response to the federal No Child Left Behind Act of 2001. This act mandated the existence of a set of comprehensive state grade level assessments that are designed based on rigorous grade level content.
In this global economy, it is essential that Michigan students possess personal, social, occupational, civic, and quantitative literacy. Mastery of the knowledge and essential skills defined in Michigan’s Grade Level Content Expectations will increase students’ ability to be successful academically, contribute to the future businesses that employ them and the communities in which they choose to live.
The Grade Level Content Expectations build from the Michigan Curriculum Framework and its Teaching and Assessment Standards. Reflecting best practices and current research, they provide a set of clear and rigorous expectations for all students and provide teachers with clearly def ined statements of what students should know and be able to do as they progress through school.
Why Create a 12.05 Version of the Expectations?The Office of School Improvement is committed to creating the best possible product for educators. This commitment served as the impetus for the revision of the 6.04 edition that was previously released in June of 2004. This new version, v.12.05, refines and clarifies the original expectations, while preserving their essence and original intent. As education continues to evolve, it is important to remember that each curriculum document should be considered as a work in progress, and will continue to be refined to improve the quality.
The revision process greatly improved the continuity from one grade to the next, and better ensured coherence both in content and pedagogy. To obtain more specific details about the revisions, please refer to the addendum included in this document. The forward of the Across the Grades v.12.05 companion document also clarifies the types of changes made. Educators can access the Across the Grades companion document by visiting the Michigan Department of Education Grade Level Content Expectations web page at www.michigan.gov/glce.
AssessmentThe Grade Level Content Expectations document is intended to be a state assessment tool with the expectations written to convey expected performances by students. The Office of Assessment and Accountability was involved in the development of version 12.05 and has incorporated the changes in the construction of test and item specifications for the K-8 Michigan Education Assessment Program (MEAP) and MI-Access. This updated version will assist us in the creation of companion documents, content examples, and to guide program planners in focusing resources and energy.
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CurriculumUsing this document as a focal point in the school improvement process, schools and districts can generate conversations among stakeholders concerning current policies and practices to consider ways to improve and enhance student achievement. Together, stakeholders can use these expectations to guide curricular and instructional decisions, identify professional development needs, and assess student achievement.
Understanding the Organizational StructureThe expectations in this document are divided into strands with multiple domains within each, as shown below. The skills and content addressed in these expectations will in practice be woven together into a coherent, Mathematics curriculum. The domains in each mathematics strand are broader, more conceptual groupings. In several of the strands, the “domains” are similar to the “standards” in Principles and Standards for School Mathematics from the National Council of Teachers of Mathematics.
To allow for ease in referencing expectations, each expectation has been coded with a strand, domain, grade-level, and expectation number. For example, M.UN.00.01 indicates:
M - Measurement strand
UN - Units & systems of measurement domain of the Measurement strand
00 - Kindergarten Expectation
01- First Expectation in the Grade-Level view of the Measurement strand
Strand 1 Number & Operations
Strand 2 AlgebraStrand 3
MeasurementStrand 4
Geometry
Strand 5 Data and
Probability
Domains
Meaning, notation, place value, and comparisons (ME)
Number relationships and meaning of operations (MR)
Fluency with operations and estimation (FL)
Patterns, relations, functions, and change (PA)
Representation (RP)
Formulas, expressions, equations, and inequalities (RP)
Units and systems of measurement (UN)
Techniques and formulas for measurement (TE)
Problem solving involving measurement (PS)
Geometric shape, properties, and mathematical arguments (GS)
Location and spatial relationships (LO)
Spatial reasoning and geometric modeling (SR)
Transformation and symmetry (TR)
Data representation (RE)
Data interpretation and analysis (AN)
Probability (PR)
Preparing Students for Academic SuccessWithin the hands of teachers, the Grade Level Content Expectations are converted into exciting and engaging learning for Michigan’s students. As we use these expectations to develop units of instruction and plan instructional delivery, it is critical to keep in mind that content knowledge alone is not sufficient for academic success. Students must be able to apply knowledge in new situations, to solve problems by generating new ideas, and to make connections between what they learn in class to the world around them. The art of teaching is what makes the content of learning become a reality.
Through the collaborative efforts of Michigan educators and creation of professional learning communities, we can enable our young people to attain the highest standards, and thereby open doors for them to have fulfilling and successful lives.
M I C H I G A N D E P A R T M E N T O F E D U C A T I O N ■ v . 1 2 . 0 5 ■ M A T H E M A T I C S S I X T H G R A D E 3
NUMBER AND Multiply and divide fractions
OPERATIONS N.MR.06.01 Understand division of fractions as the inverse of multiplication, e.g., if ÷ = ■, then • ■ = , so ■ = • = . N.FL.06.02 Given an applied situation involving dividing fractions, write a mathematical statement to represent the situation.
N.MR.06.03 Solve for the unknown in equations such as ÷ ■ = 1, ÷ ■ = , and = 1 • ■ .
N.FL.06.04 Multiply and divide any two fractions, including mixed numbers, fluently.
Represent rational numbers as fractions or decimals N.ME.06.05 Order rational numbers and place them on the number line.
N.ME.06.06 Represent rational numbers as fractions or terminating decimals when possible, and translate between these representations.
N.ME.06.07 Understand that a fraction or a negative fraction is a quotient of two integers, e.g., - is -8 divided by 3.
Add and subtract integers and rational numbers N.MR.06.08 Understand integer subtraction as the inverse of integer addition. Understand integer
division as the inverse of integer multiplication.*
N.FL.06.09 Add and multiply integers between -10 and 10; subtract and divide integers using the related facts. Use the number line and chip models for addition and subtraction.*
N.FL.06.10 Add, subtract, multiply and divide positive rational numbers fluently.
Find equivalent ratios N.ME.06.11 Find equivalent ratios by scaling up or scaling down.
Solve decimal, percentage and rational number problems N.FL.06.12 Calculate part of a number given the percentage and the number.
N.MR.06.13 Solve contextual problems involving percentages such as sales taxes and tips.*
N.FL.06.14 For applied situations, estimate the answers to calculations involving operations with rational numbers.
N.FL.06.15 Solve applied problems that use the four operations with appropriate decimal numbers.
Use exponents N.ME.06.16 Understand and use integer exponents, excluding powers of negative bases; express
numbers in scientific notation.*
Understand rational numbers and their location on the number line N.ME.06.17 Locate negative rational numbers (including integers) on the number line;
know that numbers and their negatives add to 0, and are on opposite sides and at equal distance from 0 on a number line.
N.ME.06.18 Understand that rational numbers are quotients of integers (non zero denominators), e.g., a rational number is either a fraction or a negative fraction.
N.ME.06.19 Understand that 0 is an integer that is neither negative nor positive.
N.ME.06.20 Know that the absolute value of a number is the value of the number ignoring the sign; or is the distance of the number from 0.
* revised expectations in italics
1210
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ALGEBRA Calculate rates A.PA.06.01 Solve applied problems involving rates, including speed, e.g., if a car is going 50
mph, how far will it go in 3 hours?
Understand the coordinate plane A.RP.06.02 Plot ordered pairs of integers and use ordered pairs of integers to identify points
in all four quadrants of the coordinate plane.
Use variables, write expressions and equations, and combine like terms A.FO.06.03 Use letters, with units, to represent quantities in a variety of contexts,
e.g., y lbs., k minutes, x cookies.
A.FO.06.04 Distinguish between an algebraic expression and an equation.
A.FO.06.05 Use standard conventions for writing algebraic expressions, e.g., 2x + 1 means “two times x, plus 1” and 2(x + 1) means “two times the quantity (x + 1).”
A.FO.06.06 Represent information given in words using algebraic expressions and equations.
A.FO.06.07 Simplify expressions of the first degree by combining like terms, and evaluate using specific values.
Represent linear functions using tables, equations, and graphs A.RP.06.08 Understand that relationships between quantities can be suggested by graphs
and tables.
A.PA.06.09 Solve problems involving linear functions whose input values are integers; write the equation; graph the resulting ordered pairs of integers, e.g., given c chairs, the “leg function” is 4c; if you have 5 chairs, how many legs?; if you have 12 legs, how many chairs?*
A.RP.06.10 Represent simple relationships between quantities using verbal descriptions, formulas or equations, tables, and graphs, e.g., perimeter-side relationship for a square, distance-time graphs, and conversions such as feet to inches.
Solve equations A.FO.06.11 Relate simple linear equations with integer coefficients, e.g., 3x = 8 or
x + 5 = 10, to particular contexts and solve.*
A.FO.06.12 Understand that adding or subtracting the same number to both sides of an equation creates a new equation that has the same solution.
A.FO.06.13 Understand that multiplying or dividing both sides of an equation by the same non-zero number creates a new equation that has the same solutions.
A.FO.06.14 Solve equations of the form ax + b = c, e.g., 3x + 8 = 15 by hand for positive integer coefficients less than 20, use calculators otherwise, and interpret the results.
MEASUREMENT Convert within measurement systems M.UN.06.01 Convert between basic units of measurement within a single measurement
system, e.g., square inches to square feet.
Find volume and surface area M.PS.06.02 Draw patterns (of faces) for a cube and rectangular prism that, when
cut, will cover the solid exactly (nets).
M.TE.06.03 Compute the volume and surface area of cubes and rectangular prisms given the lengths of their sides, using formulas.
* revised expectations in italics
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GEOMETRY Understand and apply basic properties G.GS.06.01 Understand and apply basic properties of lines, angles, and triangles, including:
• triangle inequality
• relationships of vertical angles, complementary angles, supplementary angles
• congruence of corresponding and alternate interior angles when parallel lines — are cut by a transversal, and that such congruencies imply parallel lines
• locate interior and exterior angles of any triangle, and use the property that an exterior — angle of a triangle is equal to the sum of the remote (opposite) interior angles
• know that the sum of the exterior angles of a convex polygon is 360º.
Understand the concept of congruence and basic transformations G.GS.06.02 Understand that for polygons, congruence means corresponding sides and angles
have equal measures.
G.TR.06.03 Understand the basic rigid motions in the plane (reflections, rotations, translations), relate these to congruence, and apply them to solve problems.
G.TR.06.04 Understand and use simple compositions of basic rigid transformations, e.g., a translation followed by a reflection.
Construct geometric shapes G.SR.06.05 Use paper folding to perform basic geometric constructions of perpendicular lines,
midpoints of line segments and angle bisectors; justify informally.
DATA AND Understand the concept of probability and solve problemsPROBABILITY D.PR.06.01 Express probabilities as fractions, decimals, or percentages between 0 and 1; know
that 0 probability means an event will not occur and that probability 1 means an event will occur.
D.PR.06.02 Compute probabilities of events from simple experiments with equally likely outcomes, e.g., tossing dice, flipping coins, spinning spinners, by listing all possibilities and finding the fraction that meets given conditions.
��GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
Organization of Western and Eastern Hemisphere Studiesin Grades Six and Seven
The study of the Western and Eastern Hemispheres during ancient and modern times, is the content of grades six and seven. Instruction over these two years includes geography, economics, government, inquiry, public discourse and decision making, citizen involvement, and World History and Geography - Eras 1, 2, and 3. These components may be arranged over the two years with the understanding that all grade level content expectations for 6 and 7 must be included in the plan for instruction.
An approach which integrates the study of the ancient world and a present day context for geography, economics, and government of both hemispheres requires careful planning. As of the writing of this document, grade level testing is not currently planned for social studies, therefore,districts are afforded flexibility on the organizational delivery models for the content in grades 6 and 7. The charts below illustrate organizational options for how those studies might be scheduled for delivery to students.
The first chart illustrates options for an integrated course of study, called Western and Eastern Hemisphere Studies, in the sixth and seventh grades. This model infuses ancient world history into a regional Western and Eastern Hemisphere organization. The difference between the options shown in this chart is the number of weeks devoted to specific topics. Notice that the shaded columns show the number of weeks used in the first year to supplement the teaching of Eastern Hemisphere Studies. The three options shown are only examples. A local school district may adopt another, such as spending 27 weeks on Western Hemisphere Studies. It should also be noted that a district may wish to offer the Eastern Hemisphere Studies in sixth grade and Western Hemisphere Studies in seventh grade.
Numberof Weeksof Study
The World in Temporal TermsOverview andHistory of Ancient Civilizations of Western Hemisphere
The World in Spatial Terms Overview and Geography of Western Hemisphere
Contemporary Civics and Economics of the Western Hemisphere
GlobalIssues Pastand Present
1 year =36 weeks
24 weeks
28 weeks
7 weeks
7 weeks
7 weeks
19 weeks
11 weeks
14 weeks
5 weeks
2 weeks
3 weeks
5 weeks
4 weeks
4 weeks
Eastern Hemisphere Studies
Numberof Weeks Remaining to Begin Teaching the Eastern Hemisphere
Numberof Weeksof Study
The World in Spatial Terms Overview and Geographyof Eastern Hemisphere
Contemporary Civics and Economics of the Eastern Hemisphere
0 weeks
12 weeks
8 weeks
1 year =36 weeks
48 weeks( 36 weeks +12 weeks
from Grade 6)
44 weeks( 36 weeks +
8 weeksfrom Grade 6)
12 weeks
17 weeks
15 weeks
16 weeks
22 weeks
20 weeks
3 weeks
3 weeks
3 weeks
5 weeks
6 weeks
6 weeks
Western Hemisphere Studies
The World in Temporal TermsOverview andHistory of Ancient Civilizations of Eastern Hemisphere
GlobalIssues Pastand Present
Numberof Weeksof Study
The World in Temporal Terms
AncientHistoryof Eastern Hemisphere
36 weeks
2 weeks
15 weeks
9 weeks
4 weeks
World Geography Studies
Numberof Weeksof Study
6 weeks
36 weeks
2 weeks
19 weeks
9 weeks
6 weeks
Ancient World Studies
The World in Spatial Terms
GlobalIssues Pastand Present
AncientHistoryof Western Hemisphere
Geography of the Eastern Hemisphere
Geography of the Western Hemisphere
GlobalIssues Pastand Present
Contemporary Civics/Government and Economics
This next chart shows an example of how a local district might decide to divide the content by discipline with one year of ancient world history and one year of world geography. Again, all 6th and 7th Grade Level Content Expectations must be included in this discipline-based organizational delivery model.
Example of Organization for Grades Six and Seven by Content Discipline
Social Studies Content Expectations Grade Five
Examples of Organization for Grades Six and Seven by Hemisphere
�� GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
An Overview of Western and Eastern Hemisphere Studies
The World in Temporal Terms – Historical Habits of Mind (Included in Grade 6 as a foundation for Grade 7)Students will identify the conceptual devices to organize their study of the world. They will compare cultural and historical interpretation. They will use the process of reasoning based on evidence from the past and interpret a variety of historical documents recognizing fact from opinion and seeking multiple historical perspectives and will evaluate evidence, compare and contrast information, interpret the historical record, and develop sound historical arguments and perspectives on which informed decisions in contemporary life can be based.
WHG Era 1 – The Beginnings of Human Society: Beginnings to 4000 B.C.E./B.C.Students will explain the basic features and differences between hunter-gatherer societies and pastoral nomads. Analyze and explain the geographic, environmental, biological, and cultural processes that influenced the rise of the earliest human communities, the migration and spread of people throughout the world, and the causes and consequences of the growth of agriculture.
WHG Era 2 – Early Civilizations and Cultures and the Emergence of Pastoral Peoples, 4000 to 1000 B.C.E./B.C.Students will describe and differentiate defining characteristics of early civilizations.
WHG Era 3 – Classical Traditions, World Religions, and Major Empires, 1000 B.C.E./B.C. to 300 C.E./A.D. (Grades six and seven includes World History to 300 C.E./A.D.)Students will analyze the innovations and social, political, and economic changes that occurred through emergence of classical civilizations in the major regions of the world, including the establishment of five major world religions.
The World in Spatial Terms – Geographical Habits of Mind (Included in Grade 6 as a foundation for Grade 7) Students will study the relationships between people, places, and environments by using information that is in a geographic (spatial) context. They will engage in mapping and analyzing the information to explain the patterns and relationships they reveal both between and among people, their cultures, and the natural environment. They will identify and access information, evaluate it using criteria based on concepts and themes, and use geography in problem solving and decision making. Students will explain and use key conceptual devices (places and regions, spatial patterns and processes) that geographers use to organize information and inform their study of the world.
Places and RegionsStudents will describe the cultural groups and diversities among people that are rooted in particular places and in human constructs called regions. They will analyze the physical and human characteristics of places and regions.
Physical SystemsStudents will describe the physical processes that shape the Earth’s surface which, along with plants and animals, are the basis for both sustaining and modifying ecosystems. They will identify and analyze the patterns and characteristics of the major ecosystems on Earth.
Human SystemsStudents will explain that human activities help shape Earth’s surface, human settlements and structures are part of Earth’s surface, and humans compete for control of Earth’s surface. They will study human populations, cultural mosaics, economic interdependence, human settlement, and cooperation.
Environment and SocietyStudents will explain that the physical environment is modified by human activities, which are influenced by the ways in which human societies value and use Earth’s natural resources, and by Earth’s physical features and processes. They will explain how human action modifies the physical environment and how physical systems affect human systems.
��GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
An Overview of Western and Eastern Hemisphere Studies – continued
Global Issues Past and Present (Capstone Projects, G6) The challenges of the 21st century require students to be globally literate regarding major global issues and the processes necessary to inquire about issues, gather information, and make decisions that arise during their lifetimes. They will need to practice responsible citizenship and make informed and reasoned decisions for the public good in a pluralistic, democratic society and an interdependent world.
Throughout the school year, the students will be introduced to topics that address global issues that integrate time and place. The topics are important for understanding contemporary global issues that affect countries and regions. Regular experiences with those topics and issues are necessary during each grade in order to build the background students will require to complete in-depth capstone projects.
A capstone project entails the investigation of historical and contemporary global issues that have significance for the student and are clearly linked to the world outside the classroom. Students use technology and traditional sources to collect data that they develop into a product or performance that clearly demonstrates their proficiency in apply-ing content from the core disciplines. They use public discourse, decision making, and citizen involvement in complet-ing and presenting the capstone. The students demonstrate inquiry methods and compose persuasive civic essays using reasoned arguments. The capstone project proposes a plan for the future based on the evidence researched. At least three global issues should be used in capstone projects at each grade level.
Purposes of GovernmentStudents will analyze how people identify, organize, and accomplish the purposes of government.
Structure and Functions of GovernmentStudents will describe the major activities of government including making and enforcing laws, providing services and benefits to individuals and groups, assigning individual and collective responsibilities, generating revenue, and providing national security.
Relationship of United States to Other Nations and World AffairsStudents will explain that the world is organized politically into nation-states, and how nation-states interact with one another.
The Market EconomyStudents will describe the market economy in terms of relevance of limited resources, how individuals and institutions make and evaluate decisions, the role of incentives, how buyers and sellers interact to create markets, how markets allocate resources, and the economic role of government in a market economy.
The National EconomyStudents will use economic concepts, terminology, and data to identify and describe how a national economy functions. They will study the role of government as a provider of goods and services within a national economy.
The International EconomyStudents will analyze reasons for individuals and businesses to specialize and trade, why individuals and businesses trade across international borders, and the comparisons of the benefits and costs of specialization and the resulting trade for consumers, producers, and governments.
Public Discourse, Decision Making, Citizen Involvement Students will identify and analyze public policy issues, express and justify decisions, and develop an action plan to inform others.
�� GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
HISTORyH1 The World in Temporal Terms: Historical Habits of Mind (Foundational for Grade 7)
1.1 Temporal Thinking 1.2 Historical Inquiry and Analysis
1.4 Historical UnderstandingW1 WHG Era 1 – The Beginnings of Human Society
1.1 Peopling of the Earth 1.2 Agricultural Revolution
W2 WHG Era 2 – Early Civilizations and Cultures and the Emergence of Pastoral Peoples 2.1 Early Civilizations and Early Pastoral Societies
W3 WHG Era 3 – Classical Traditions, World Religions, and Major Empires 3.1 Classical Traditions and Major Empires in the Western Hemisphere
GEOGRAPHyG1 The World in Spatial Terms: Geographical Habits of Mind (Foundational for Grade 7)
G2 Places and Regions 2.1 Physical Characteristics of Place 2.2 Human Characteristics of Place
G3 Physical Systems 3.1 Physical Processes 3.2 Ecosystems
G4 Human Systems 4.1 Cultural Mosaic 4.2 Technology Patterns and Networks 4.3 Patterns of Human Settlement 4.4 Forces of Cooperation and Conflict
G5 Environment and Society 5.1 Humans and the Environment 5.2 Physical and Human Systems
G6 Global Issues Past and Present 6.1 Global Topic Investigation and Issue Analysis
CIVICS AND GOVERNMENTC1 Purposes of Government
1.1 Nature of Civic Life, Politics, and GovernmentC3 Structure and Functions of Government
3.6 Characteristics of Nation-StatesC4 Relationship of United States to Other Nations and World Affairs
4.3 Conflict and Cooperation Between and Among Nations
ECONOMICSE1 The Market Economy
1.1 Individual, Business, and Government ChoicesE2 The National Economy
2.3 Role of GovernmentE3 International Economy
3.1 Economic Systems 3.3 Economic Interdependence
PUBLIC DISCOURSE, DECISION MAKING, AND CITIzEN INVOLVEMENT
Western Hemisphere Studies Grade Six
Sixth grade students will explore the tools and mental constructs used by historians and geographers. They will develop an understanding of Ancient World History, Eras 1 – 3, of the Western Hemisphere and will study contemporary geography of the Western Hemisphere. Contemporary civics/government and economics content is integrated throughout the year. As a capstone, the students will conduct investigations about past and present global issues. Using significant content knowledge, research, and inquiry, they will analyze an issue and propose a plan for the future. As part of the inquiry, they compose civic, persuasive essays using reasoned argument.
�7GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
HISTORyH1 The World in Temporal Terms: Historical Habits of Mind (Foundational for Grade 7)
1.1 Temporal Thinking 1.2 Historical Inquiry and Analysis
1.4 Historical UnderstandingW1 WHG Era 1 – The Beginnings of Human Society
1.1 Peopling of the Earth 1.2 Agricultural Revolution
W2 WHG Era 2 – Early Civilizations and Cultures and the Emergence of Pastoral Peoples 2.1 Early Civilizations and Early Pastoral Societies
W3 WHG Era 3 – Classical Traditions, World Religions, and Major Empires 3.1 Classical Traditions and Major Empires in the Western Hemisphere
GEOGRAPHyG1 The World in Spatial Terms: Geographical Habits of Mind (Foundational for Grade 7)
G2 Places and Regions 2.1 Physical Characteristics of Place 2.2 Human Characteristics of Place
G3 Physical Systems 3.1 Physical Processes 3.2 Ecosystems
G4 Human Systems 4.1 Cultural Mosaic 4.2 Technology Patterns and Networks 4.3 Patterns of Human Settlement 4.4 Forces of Cooperation and Conflict
G5 Environment and Society 5.1 Humans and the Environment 5.2 Physical and Human Systems
G6 Global Issues Past and Present 6.1 Global Topic Investigation and Issue Analysis
CIVICS AND GOVERNMENTC1 Purposes of Government
1.1 Nature of Civic Life, Politics, and GovernmentC3 Structure and Functions of Government
3.6 Characteristics of Nation-StatesC4 Relationship of United States to Other Nations and World Affairs
4.3 Conflict and Cooperation Between and Among Nations
ECONOMICSE1 The Market Economy
1.1 Individual, Business, and Government ChoicesE2 The National Economy
2.3 Role of GovernmentE3 International Economy
3.1 Economic Systems 3.3 Economic Interdependence
PUBLIC DISCOURSE, DECISION MAKING, AND CITIzEN INVOLVEMENT
6TH GRADE WESTERN HEMISPHERE STUDIES
Sixth Grade includes North America, Central America, the Caribbean, and South America. Europe and Russia are listed in the document in grade 7, but may be included with either Western or Eastern Hemisphere Studies. World History Eras 1, 2, and 3 are included in Grades 6 and 7 as a foundation for High School World History and Geography.
Note: The World in Temporal Terms and The World in Spatial Terms become foundational expectations for the 7th Grade study of the Eastern Hemisphere.
HISTORy
H1 THE WORLD IN TEMPORAL TERMS: HISTORICAL HABITS OF MIND (WAyS OF THINKING)
Evaluate evidence, compare and contrast information, interpret the historical record, and develop sound historical arguments and perspectives on which informed decisions in contemporary life can be based.
H1.1 Temporal ThinkingUse historical conceptual devices to organize and study the past.
Historians use conceptual devices (eras, periods, calendars, time lines) to organize their study of the world. Chronology is based on time and reflects cultural and historical interpretations, including major starting points, and calendars based on different criteria (religious, seasonal, Earth-sun-and-moon relationships). Historians use eras and periods to organize the study of broad developments that have involved large segments of world’s population and have lasting significance for future generations and to explain change and continuity.
6 – H1.1.1 Explain why and how historians use eras and periods as constructs to organize and explain human activities over time.
6 – H1.1.2 Compare and contrast several different calendar systems used in the past and present and their cultural significance (e.g., Olmec and Mayan calendar systems, Aztec Calendar Stone, Sun Dial, Gregorian calendar – B.C./A.D.; contemporary secular – B.C.E./C.E. Note: in 7th grade Eastern Hemisphere the Chinese, Hebrew, and Islamic/Hijri calendars are included).
H1.2 Historical Inquiry and AnalysisUse historical inquiry and analysis to study the past.
History is a process of reasoning based on evidence from the past. Historians use and interpret a variety of historical documents (including narratives), recognize the difference between fact and opinion, appreciate multiple historical perspectives while avoiding present mindedness (judging the past solely in term of norms and values of today), and explain that historical events often are the result of multiple causation. Students will conduct their own inquiry and analysis in their studies about the ancient history of the Western Hemisphere.
6 – H1.2.1 Explain how historians use a variety of sources to explore the past (e.g., artifacts, primary and secondary sources including narratives, technology, historical maps, visual/mathematical quantitative data, radiocarbon dating, DNA analysis).
6 – H1.2.2 Read and comprehend a historical passage to identify basic factual knowledge and the literal meaning by indicating who was involved, what happened, where it happened, what events led to the development, and what consequences or outcomes followed.
6 – H1.2.3 Identify the point of view (perspective of the author) and context when reading and discussing primary and secondary sources.
6 – H1.2.4 Compare and evaluate competing historical perspectives about the past based on proof.6 – H1.2.5 Identify the role of the individual in history and the significance of one person’s ideas.
Social Studies Content Expectations Grade Six
�8 GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
H1.4 Historical UnderstandingUse historical concepts, patterns, and themes to study the past.
Historians apply temporal perspective, historical inquiry, and analysis to spheres of human society to construct knowledge as historical understandings. These understandings are drawn from the record of human history and include human aspirations, strivings, accomplishments, and failures in spheres of human activity.
6 – H1.4.1 Describe and use cultural institutions to study an era and a region (political, economic, religion/ belief, science/technology, written language, education, family).
6 – H1.4.2 Describe and use themes of history to study patterns of change and continuity. 6 – H1.4.3 Use historical perspective to analyze global issues faced by humans long ago and today.
W1 WHG ERA 1 – THE BEGINNINGS OF HUMAN SOCIETy: BEGINNINGS TO 4000 B.C.E./B.C.
Explain the basic features and differences between hunter-gatherer societies and pastoral nomads. Analyze and explain the geographic, environmental, biological, and cultural processes that influenced the rise of the earliest human communities, the migration and spread of people throughout the world, and the causes and consequences of the growth of agriculture.
W1.1 Peopling of the Earth Describe the spread of people in the Western Hemisphere in Era 1.
In the first era of human history, people spread throughout the world. As communities of hunters, foragers, or fishers, they adapted creatively and continually to a variety of contrasting, changing environments in the Americas.
6 – W1.1.1 Describe the early migrations of people among Earth’s continents (including the Berringa Land Bridge).
6 – W1.1.2 Examine the lives of hunting and gathering people during the earliest eras of human society (tools and weapons, language, fire).
W1.2 Agricultural Revolution Describe the Agricultural Revolution and explain why it is a turning point in history.
The Agricultural Revolution was a major turning point in history that resulted in people and civilizations viewing and using the land in a systematic manner to grow food crops, raise animals, produce food surpluses, and the development of sedentary settlement.
6 – W1.2.1 Describe the transition from hunter gatherers to sedentary agriculture (domestication of plants and animals).
6 – W1.2.2 Describe the importance of the natural environment in the development of agricultural settlements in different locations (e.g., available water for irrigation, adequate precipitation, and suitable growing season).
6 – W1.2.3 Explain the impact of the Agricultural Revolution (stable food supply, surplus, population growth, trade, division of labor, development of settlements).
Social Studies Content Expectations Grade Six
�9GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
W2 WHG ERA 2 – EARLy CIVILIZATIONS AND CULTURES AND THE EMERGENCE OF PASTORAL PEOPLES, 4000 TO 1000 B.C.E./B.C.
Describe and differentiate defining characteristics of early civilization and pastoral societies, where they emerged, and how they spread.
W2.1 Early Civilizations and Early Pastoral SocietiesDescribe the characteristics of early Western Hemisphere civilizations and pastoral societies.
During this era early agrarian civilizations and pastoral societies emerged. Many of the world’s most fundamental institutions, discoveries, inventions, and techniques appeared. Pastoral societies developed cultures that reflected the geography and resources that enabled them to inhabit the more challenging physical environments such as the tundra and semi-arid regions of North and South America.
6 – W2.1.1 Explain how the environment favored hunter gatherer, pastoral, and small scale agricultural ways of life in different parts of the Western Hemisphere.
6 – W2.1.2 Describe how the invention of agriculture led to the emergence of agrarian civilizations (seasonal harvests, specialized crops, cultivation, and development of villages and towns).
6 – W2.1.3 Use multiple sources of evidence to describe how the culture of early peoples of North America reflected the geography and natural resources available (e.g., Inuit of the Arctic, Kwakiutl of the Northwest Coast; Anasazi and Apache of the Southwest).
6 – W2.1.4 Use evidence to identify defining characteristics of early civilizations and early pastoral nomads (government, language, religion, social structure, technology, and division of labor).
W3 WHG ERA 3 – CLASSICAL TRADITIONS AND MAjOR EMPIRES, 1000 B.C.E./B.C. TO 300 C.E./A.D.
(Note: Mayan, Aztec, and Incan societies had their beginnings in Era 3 but became more prominent as civilizations in Era 4.)
Analyze the civilizations and empires that emerged during this era, noting their political, economic, and social systems, and their changing interactions with the environment.
Analyze the innovations and social, political, and economic changes that occurred through the emergence of agrarian societies of Mesoamerica and Andean South America and the subsequent urbanization and trading economies that occurred in the region. (Grade 6)
W3.1 Classical Traditions and Major Empires in the Western HemisphereDescribe empires and agrarian civilizations in Mesoamerica and South America.
Civilizations and empires that emerged during this era were noted for their political, economic and social systems and their changing interactions with the environment and the agrarian civilizations that emerged in Mesoamerica and South America.
6 – W3.1.1 Analyze the role of environment in the development of early empires, referencing both useful environmental features and those that presented obstacles.
6 – W3.1.2 Explain the role of economics in shaping the development of early civilizations (trade routes and their significance – Inca Road, supply and demand for products).
6 – W3.1.3 Describe similarities and difference among Mayan, Aztec, and Incan societies, including economy, religion, and role and class structure.
6 – W3.1.4 Describe the regional struggles and changes in governmental systems among the Mayan, Aztec, and Incan Empires.
6 – W3.1.5 Construct a timeline of main events on the origin and development of early and classic ancient civilizations of the Western Hemisphere (Olmec, Mayan, Aztec, and Incan).
Social Studies Content Expectations Grade Six
�0 GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
GEOGRAPHy
G1 THE WORLD IN SPATIAL TERMS: GEOGRAPHICAL HABITS OF MIND
Describe the relationships between people, places, and environments by using information that is in a geographic (spatial) context. Engage in mapping and analyzing the information to explain the patterns and relationships they reveal both between and among people, their cultures, and the natural environment. Identify and access information, evaluate it using criteria based on concepts and themes, and use geography in problem solving and decision making. Explain and use key conceptual devices (places and regions, spatial patterns and processes) that geographers use to organize information and inform their study of the world.
G1.1 Spatial ThinkingUse maps and other geographic tools to acquire and process information from a spatial perspective.
Geographers use published maps, sketch (mental) maps, and other geographic representations, tools, and technologies to acquire, organize, process, and report information from a spatial perspective. World maps made for specific purposes (population distribution, climate patterns, vegetation patterns) are used to explain the importance of maps in presenting information that can be compared, contrasted, and examined to answer the questions “Where is something located?” and “Why is it located there?” Students will begin with global scale and then refocus the scale to study the region of the Western Hemisphere, and, finally, focus on a specific place.
6 – G1.1.1 Describe how geographers use mapping to represent places and natural and human phenomena in the world.
6 – G1.1.2 Draw a sketch map from memory of the Western Hemisphere showing the major regions (Canada, United States, Mexico, Central America, South America, and Caribbean).
G1.2 Geographical Inquiry and AnalysisUse geographic inquiry and analysis to answer important questions about relationships between people, cultures, their environment, and relations within the larger world context.
Geographers use information and skills to reach conclusions about significant questions regarding the relationships between people, their cultures, the environments in which they live, and the relationships within the larger world context. Students will reach their own conclusions using this information and make a reasoned judgment about the most justifiable conclusion based on the authenticity of the information, their skill at critically analyzing the information, and presenting the results of the inquiry.
6 – G1.2.1 Locate the major landforms, rivers (Amazon, Mississippi, Missouri, Colorado), and climate regions of the Western Hemisphere.
6 – G1.2.2 Explain why maps of the same place may vary, including cultural perspectives of the Earth and new knowledge based on science and modern technology.
6 – G1.2.3 Use data to create thematic maps and graphs showing patterns of population, physical terrain, rainfall, and vegetation, analyze the patterns and then propose two generalizations about the location and density of the population.
6 – G1.2.4 Use observations from air photos, photographs (print and CD), films (VCR and DVD) as the basis for answering geographic questions about the human and physical characteristics of places and regions.
Social Studies Content Expectations Grade Six
�1GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
6 – G1.2.5 Use information from modern technology such as Geographic Positioning System (GPS), Geographic Information System (GIS), and satellite remote sensing to locate information and process maps and data to analyze spatial patterns of the Western Hemisphere to answer geographic questions.
6 – G1.2.6 Apply the skills of geographic inquiry (asking geographic questions, acquiring geographic information, organizing geographic information, analyzing geographic information, and answering geographic questions) to analyze a problem or issue of importance to a region of the Western Hemisphere.
G1.3 Geographical UnderstandingUse geographic themes, knowledge about processes and concepts to study the Earth.
The nature and uses of geography as a discipline and the spatial perspective require that students observe, interpret, assess, and apply geographic information and skills. The uses of the subject and content of geography are essential in the development of geographical understanding. A spatial perspective enables student to observe, describe, and analyze the organizations of people, places, and environments at different scales and is central to geographic literacy.
6 – G1.3.1 Use the fundamental themes of geography (location, place, human environment interaction, movement, region) to describe regions or places on earth.
6 – G1.3.2 Explain the locations and distributions of physical and human characteristics of Earth by using knowledge of spatial patterns.
6 – G1.3.3 Explain the different ways in which places are connected and how those connections demonstrate interdependence and accessibility.
G2 PLACES AND REGIONS
Describe the cultural groups and diversities among people that are rooted in particular places and in human constructs called regions. Analyze the physical and human characteristics of places and regions.
G2.1 Physical Characteristics of PlaceDescribe the physical characteristics of places.
6 – G2.1.1 Describe the landform features and the climate of the region (within the Western or Eastern Hemispheres) under study.
6 – G2.1.2 Account for topographic and human spatial patterns (where people live) associated with tectonic plates such as volcanoes, earthquakes, settlements (Ring of Fire, recent volcanic and seismic events, settlements in proximity to natural hazards in the Western Hemisphere) by using information from GIS, remote sensing, and the World Wide Web.
G2.2 Human Characteristics of PlaceDescribe the human characteristics of places.
6 – G2.2.1 Describe the human characteristics of the region under study (including languages, religion, economic system, governmental system, cultural traditions).
6 – G2.2.2 Explain that communities are affected positively or negatively by changes in technology (e.g., Canada with regard to mining, forestry, hydroelectric power generation, agriculture, snowmobiles, cell phones, air travel).
6 – G2.2.3 Analyze how culture and experience influence people’s perception of places and regions (e.g., the Caribbean Region that presently displays enduring impacts of different immigrant groups – Africans, South Asians, Europeans – and the differing contemporary points of view about the region displayed by islanders and tourists).
Social Studies Content Expectations Grade Six
�� GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
G3 PHySICAL SySTEMS
Describe the physical processes that shape the Earth’s surface which, along with plants and animals, are the basis for both sustaining and modifying ecosystems. Identify and analyze the patterns and characteristics of the major ecosystems on Earth.
G3.1 Physical ProcessesDescribe the physical processes that shape the patterns of the Earth’s surface.
6 – G3.1.1 Construct and analyze climate graphs for two locations at different latitudes and elevations in the region to answer geographic questions and make predictions based on patterns. (e.g., compare and contrast Buenos Aires and La Paz; Mexico City and Guatemala City; Edmonton and Toronto).
G3.2 EcosystemsDescribe the characteristics and spatial distribution of ecosystems on the Earth’s surface.
6 – G3.2.1 Explain how and why ecosystems differ as a consequence of differences in latitude, elevation, and human activities (e.g., South America’s location relative to the equator, effects of elevations on temperature and growing season, proximity to bodies of water and the effects on temperature and rainfall, effects of annual flooding on vegetation along river flood plains such as the Amazon).
6 – G3.2.2 Identify ecosystems and explain why some are more attractive for humans to use than are others (e.g., mid-latitude forest in North America, high latitude of Peru, tropical forests in Honduras, fish or marine vegetation in coastal zones).
G4 HUMAN SySTEMS Explain that human activities may be seen on Earth’s surface.
Human systems include the way people divide the land, decide where to live, develop communities that are part of the larger cultural mosaic, and engage in the cultural diffusion of ideas and products within and among groups.
G4.1 Cultural MosaicDescribe the characteristics, distribution and complexity of Earth’s cultural mosaic.
6 – G4.1.1 Identify and explain examples of cultural diffusion within the Americas (e.g., baseball, soccer, music, architecture, television, languages, health care, Internet, consumer brands, currency, restaurants, international migration).
G4.2 Technology Patterns and NetworksDescribe how technology creates patterns and networks that connect people, products, and ideas.
6 – G4.2.1 List and describe the advantages and disadvantages of different technologies used to move people, products, and ideas throughout the world (e.g., call centers in the Eastern Hemisphere that service the Western Hemisphere; the United States and Canada as hubs for the Internet; transport of people and perishable products; and the spread of individuals’ ideas as voice and image messages on electronic networks such as the Internet).
Social Studies Content Expectations Grade Six
��GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
G4.3 Patterns of Human SettlementDescribe patterns, processes, and functions of human settlement.
6 – G4.3.1 Identify places in the Western Hemisphere that have been modified to be suitable for settlement by describing the modifications that were necessary (e.g., Vancouver in Canada; irrigated agriculture; or clearing of forests for farmland).
6 – G4.3.2 Describe patterns of settlement by using historical and modern maps (e.g., coastal and river cities and towns in the past and present, locations of megacities – modern cities over 5 million, such as Mexico City, and patterns of agricultural settlements in South and North America).
G4.4 Forces of Cooperation and ConflictExplain how forces of conflict and cooperation among people influence the division of the Earth’s surface and its resources.
6 – G4.4.1 Identify factors that contribute to conflict and cooperation between and among cultural groups (control/use of natural resources, power, wealth, and cultural diversity).
6 – G4.4.2 Describe the cultural clash of First Peoples, French and English in Canada long ago, and the establishment of Nunavut in 1999.
G5 ENVIRONMENT AND SOCIETyExplain that the physical environment is modified by human activities, which are influenced by the ways in which human societies value and use Earth’s natural resources, and by Earth’s physical features and processes. Explain how human action modifies the physical environment and how physical systems affect human systems.
G5.1 Humans and the EnvironmentDescribe how human actions modify the environment.
6 – G5.1.1 Describe the environmental effects of human action on the atmosphere (air), biosphere (people, animals, and plants), lithosphere (soil), and hydrosphere (water) (e.g., changes in the tropical forest environments in Brazil, Peru, and Costa Rica).
6 – G5.1.2 Describe how variations in technology affect human modifications of the landscape (e.g., clearing forests for agricultural land in South America, fishing in the Grand Banks of the Atlantic, expansion of cities in South America, hydroelectric developments in Canada, Brazil and Chile, and mining the Kentucky and West Virginia).
6 – G5.1.3 Identify the ways in which human-induced changes in the physical environment in one place can cause changes in other places (e.g., cutting forests in one region may result in river basin flooding elsewhere; building a dam floods land upstream and may permit irrigation in another region).
G5.2 Physical and Human SystemsDescribe how physical and human systems shape patterns on the Earth’s surface.
6– G5.2.1 Describe the effects that a change in the physical environment could have on human activities and the choices people would have to make in adjusting to the change (e.g., drought in northern Mexico, disappearance of forest vegetation in the Amazon, natural hazards and disasters from volcanic eruptions in Central America and the Caribbean and earthquakes in Mexico City and Colombia).
Social Studies Content Expectations Grade Six
�� GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
G6 GLOBAL ISSUES PAST AND PRESENT (H1.4.3, G1.2.6)
Throughout the school year the students are introduced to topics that address global issues that integrate time and place. Included are capstone projects that entail the investigation of historical and contemporary global issues that have significance for the student and are clearly linked to the world outside the classroom. The topics and issues are developed as capstone projects within units and at the end of the course. Regular experiences with those topics and issues are necessary during each grade in order to build the background students will require to complete in-depth capstone projects.
G6.1 Global Topic Investigation and Issue Analysis (P2)Capstone projects require the student to use geography, history, economics, and government to inquire about major contemporary and historical issues and events linked to the world outside the classroom. The core disciplines are used to interpret the past and plan for the future. During the school year the students will complete at least three capstone projects. (National Geography Standards 17 and 18, p. 179 and 181)
6 – G6.1.1 Contemporary Investigations – Conduct research on contemporary global topics and issues, compose persuasive essays, and develop a plan for action. (H1.4.3, G1.2.6, See P3 and P4)
Contemporary Investigation Topics
Global Climate Change – Investigate the impact of global climate change and describe the significance for human/environment relationships.
Globalization – Investigate the significance of globalization and describe its impact on international economic and political relationships.
Migration – Investigate issues arising from international movement of people and the economic, political, and cultural consequences.
Human-Environmental Interactions – Investigate how policies from the past and their implemantation have had positive or negative consequences for the environment in the future.
Natural Disasters – Investigate the significance of natural disasters and describe the effects on human and physical systems, and the economy, and the responsibilities of government.
6 – G6.1.2 Investigations Designed for Ancient World History Eras – Conduct research on global topics and issues, compose persuasive essays, and develop a plan for action. (H1.4.3, G1.2.6, See P3 and P4)
Note: Additional global investigation topics have been identified for connections to World History Eras 1, 2, and 3 studies. Students investigate contemporary topics and issues that they have studied in an ancient world history context. The investigations may be addressed at the conclusion of each Era or may be included at the conclusion of the course.
Contemporary Investigation Topics – Related to Content in World History and Contemporary Geography
WHG Era 1Population Growth and Resources – Investigate how population growth affects resource availability.Migration – Investigate the significance of migrations of peoples and the resulting benefits and challenges.
WHG Era 2Sustainable Agriculture – Investigate the significance of sustainable agriculture and its role in helping societies produce enough food for people.
WHG Era 3Development – Investigate economic effects on development in a region and its ecosystems and societies.
Social Studies Content Expectations Grade Six
��GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
Social Studies Content Expectations Grade Six
CIVICS AND GOVERNMENT
C1 PURPOSES OF GOVERNMENT
Analyze how people identify, organize, and accomplish the purposes of government.
C1.1 Nature of Civic Life, Politics, and GovernmentDescribe Civic Life, Politics, and Government and explain their relationships.
6 – C1.1.1 Analyze competing ideas about the purposes government should serve in a democracy and in a dictatorship (e.g., protecting individual rights, promoting the common good, providing economic security, molding the character of citizens, or promoting a particular religion).
C3 STRUCTURE AND FUNCTIONS OF GOVERNMENT
Describe the major activities of government, including making and enforcing laws, providing services and benefits to individuals and groups, assigning individual and collective responsibilities, generating revenue, and providing national security.
C3.6 Characteristics of Nation-StatesDescribe the characteristics of nation-states and how they may interact.
6 – C3.6.1 Define the characteristics of a nation-state (a specific territory, clearly defined boundaries, citizens, and jurisdiction over people who reside there, laws, and government), and how Western Hemisphere nations interact.
6 – C3.6.2 Compare and contrast a military dictatorship such as Cuba, a presidential system of representative democracy such as the United States, and a parliamentary system of representative democracy such as Canada.
C4 RELATIONSHIP OF UNITED STATES TO OTHER NATIONS AND WORLD AFFAIRS
Explain that nations interact with one another through trade, diplomacy, treaties and agreements, humanitarian aid, economic sanctions and incentives, and military force, and threat of force.
C4.3 Conflict and Cooperation Between and Among NationsExplain the various ways that nations interact both positively and negatively.
6 – C4.3.1 Explain the geopolitical relationships between countries (e.g., petroleum and arms purchases in Venezuela and Ecuador; foreign aid for health care in Nicaragua).
6 – C4.3.2 Explain the challenges to governments and the cooperation needed to address international issues in the Western Hemisphere (e.g., migration and human rights).
6 – C4.3.3 Give examples of how countries work together for mutual benefits through international organizations (e.g. North American Free Trade Agreement (NAFTA), Organization of American States (OAS), United Nations (UN)).
Social Studies Content Expectations Grade Six
�� GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
ECONOMICS
E1 THE MARKET ECONOMy
Describe the market economy in terms of the relevance of limited resources, how individuals and institutions make and evaluate decisions, the role of incentives, how buyers and sellers interact to create markets, how markets allocate resources, and the economic role of government in a market economy.
E1.1 Individual, Business, and Government ChoicesDescribe how individuals, businesses and government make economic decisions when confronting scarcity in the market economy .
6 – E1.1.1 Explain how incentives vary in different economic systems (e.g. acquiring money, profit, goods, wanting to avoid loss in position in society, job placement).
E2 THE NATIONAL ECONOMy
Use economic concepts, terminology, and data to identify and describe how a national economy functions and to study the role of government as a provider of goods and services within a national economy.
E2.3 Role of GovernmentDescribe how national governments make decisions that affect the national economy
6 – E2.3.1 Describe the impact of governmental policy (sanctions, tariffs, treaties) on that country and on other countries that use its resources.
E3 INTERNATIONAL ECONOMy
Analyze reasons for individuals and businesses to specialize and trade, why individuals and businesses trade across international borders, and the comparisons of the benefits and costs of specialization and the resulting trade for consumers, producers, and governments.
E3.1 Economic InterdependenceDescribe patterns and networks of economic interdependence, including trade.
6 – E3.1.1 Use charts and graphs to compare imports and exports of different countries in the Western Hemisphere and propose generalizations about patterns of economic interdependence.
6 – E3.1.2 Diagram or map the movement of a consumer product from where it is manufactured to where it is sold to demonstrate the flow of materials, labor, and capital (e.g., global supply chain for computers, athletic shoes, and clothing).
6 – E3.1.3 Explain how communications innovations have affected economic interactions and where and how people work (e.g., internet-based home offices, international work teams, international companies).
E3.3 Economic SystemsDescribe how societies organize to allocate resources to produce and distribute goods and services.
6 – E3.3.1 Explain and compare how economic systems (traditional, command, and market) answer four basic questions: What should be produced? How will it be produced? How will it be distributed? Who will receive the benefits of production? (e.g., compare United States and Cuba, or Venezuela and Jamaica.)
Social Studies Content Expectations Grade Six
�7GRADES K-8 SOCIAL STUDIES CONTENT EXPECTATIONS V. 12/07 MICHIGAN DEPARTMENT OF EDUCATION
Social Studies Content Expectations Grade Six
PUBLIC DISCOURSE, DECISION MAKING, AND CITIZEN INVOLVEMENT (P3, P4)
P3.1 Identifying and Analyzing Issues, Decision Making, Persuasive Communication About a Public Issue, and Citizen Involvement
6 – P3.1.1 Clearly state an issue as a question or public policy, trace the origins of an issue, analyze various perspectives, and generate and evaluate alternative resolutions. Deeply examine policy issues in group discussions and debates to make reasoned and informed decisions. Write persuasive/argumentative essays expressing and justifying decisions on public policy issues. Plan and conduct activities intended to advance views on matters of public policy, report the results, and evaluate effectiveness.• Identify public policy issues related to global topics and issues studied.• Clearly state the issue as a question of public policy orally or in written form.• Use inquiry methods to acquire content knowledge and appropriate data about the issue.
• Identify the causes and consequences and analyze the impact, both positive and negative.
• Share and discuss findings of research and issue analysis in group discussions and debates.• Compose a persuasive essay justifying the position with a reasoned argument.• Develop an action plan to address or inform others about the issue at the local to global
scales.
P4.2 Citizen InvolvementAct constructively to further the public good.
6 – P4.2.1 Demonstrate knowledge of how, when, and where individuals would plan and conduct activities intended to advance views in matters of public policy, report the results, and evaluate effectiveness.
6 – P4.2.2 Engage in activities intended to contribute to solving a national or international problem studied.6 – P4.2.3 Participate in projects to help or inform others (e.g., service learning projects).
Social Studies Content Expectations Grade Six
A goal of No Child Left Behind is that schools will “assist every
student in crossing the digital divide by ensuring that every student is
technologically literate by the time the student finishes the eighth grade,
regardless of the student’s race, ethnicity, gender, family income,
geographic location, or disability.”
The Michigan Educational Technology Standards for Students (METS-S)
are aligned with the International Society for Technology in Education’s
(ISTE) National Educational Technology Standards for Students (NETS-S)
and the Framework for 21st Century Learning. The Michigan standards are
intended to provide educators with a specific set of learning expectations
that can be used to drive educational technology literacy assessments.
These standards are best delivered by authentic instruction and assess-
ment with direct curricular ties and it is intended that these Standards will
be integrated into all content areas. The preparation of our students to
the successful in the 21st Century is the responsibility of all educators.
Technology Literacy Technology literacy is the ability to responsibly use appropriate technology to communicate, solve problems, and
access, manage, integrate, evaluate, and create information to improve learning in all subject areas and to acquire
lifelong knowledge and skills in the 21st century.
2009 Michigan Educational Technology Standards for Students
Approved by the State Board of Education - October 2009
Grades 6-8
Universal Design for Learning (UDL) CAST (the Center for Applied Special Technology) offers three principles to guide UDL: provide multiple means of
representation; provide multiple means of expression; and provide multiple means of engagement. CAST asserts
that “These UDL Guidelines will assist curriculum developers (these may include teachers, publishers, and others) in
designing flexible curricula that reduce barriers to learning and provide robust learning supports to meet the needs of
all learners.” Educational technologies can be valuable resources for educators in addressing the UDL guidelines. For
additional information on UDL, visit the CAST website: www.cast.org.
State Board of Education
Kathleen N. Straus, President
John C. Austin, Vice President
Carolyn L. Curtin, Secretary
Marianne Yared McGuire, Treasurer
Nancy Danhof, NASBE Delegate
Elizabeth W. Bauer
Reginald M. Turner
Casandra E. Ulbrich
Jennifer M. Granholm Governor
Michael P. Flanagan, Superintendent
Page 1 of 2
Approved by the Michigan State Board of Education—October 2009 Page 2 of 3
6-8.CC.1. use digital resources (e.g., discussion groups, blogs, podcasts, videoconferences, Moodle, Blackboard) to
collaborate with peers, experts, and other audiences 6-8.CC.2. use collaborative digital tools to explore common curriculum content with learners from other cultures
6-8.CC.3. identify effective uses of technology to support communication with peers, family, or school personnel
6-8.CC. Communication and Collaboration—By the end of grade 8 each student will:
6-8.RI.1. use a variety of digital resources to locate information 6-8.RI.2. evaluate information from online information resources for accuracy and bias
6-8.RI.3. understand that using information from a single Internet source might result in the reporting of erroneous
facts and that multiple sources should always be researched
6-8.RI.4. identify types of web sites based on their domain names (e.g., edu, com, org, gov, net)
6-8.RI.5. employ data-collection technologies (e.g., probes, handheld devices, GPS units, geographic mapping systems) to gather, view, and analyze the results for a content-related problem
6-8.RI. Research and Information Literacy—By the end of grade 8 each student will:
6-8.CT.1. use databases or spreadsheets to make predictions, develop strategies, and evaluate decisions to assist with
solving a problem
6-8.CT.2. evaluate available digital resources and select the most appropriate application to accomplish a specific task
(e, g., word processor, table, outline, spreadsheet, presentation program)
6-8.CT.3. gather data, examine patterns, and apply information for decision making using available digital resources
6-8.CT.4. describe strategies for solving routine hardware and software problems
6-8.CT. Critical Thinking, Problem Solving, and Decision Making —By the end of grade 8 each student will:
6-8.DC.1. provide accurate citations when referencing information sources
6-8.DC.2. discuss issues related to acceptable and responsible use of technology (e.g., privacy, security, copyright,
plagiarism, viruses, file-sharing)
6-8.DC.3. discuss the consequences related to unethical use of information and communication technologies
6-8.DC.4. discuss possible societal impact of technology in the future and reflect on the importance of technology in
the past
6-8.DC.5. create media-rich presentations on the appropriate and ethical use of digital tools and resources
6-8.DC.6. discuss the long term ramifications (digital footprint) of participating in questionable online activities (e.g.,
posting photos of risqué poses or underage drinking, making threats to others)
6-8.DC.7. describe the potential risks and dangers associated with online communications
6-8.DC. Digital Citizenship—By the end of grade 8 each student will:
6-8.CI.1. apply common software features (e.g., spellchecker, thesaurus, formulas, charts, graphics, sounds) to en-
hance communication with an audience and to support creativity
6-8.CI.2. create an original project (e.g., presentation, web page, newsletter, information brochure) using a variety of
media (e.g., animations, graphs, charts, audio, graphics, video) to present content information to an audience
6-8.CI.3. illustrate a content-related concept using a model, simulation, or concept-mapping software
6-8.CI. Creativity and Innovation—By the end of grade 8 each student will:
6-8.TC.1. identify file formats for a variety of applications (e.g., doc, xls, pdf, txt, jpg, mp3) 6-8.TC.2. use a variety of technology tools (e.g., dictionary, thesaurus, grammar-checker, calculator) to maximize the
accuracy of technology-produced materials
6-8.TC.3. perform queries on existing databases
6-8.TC.4. know how to create and use various functions available in a database (e.g., filtering, sorting, charts)
6-8.TC.5. identify a variety of information storage devices (e.g., CDs, DVDs, flash drives, SD cards) and provide ration-
ales for using a certain device for a specific purpose 6-8.TC.6. use accurate technology terminology
6-8.TC.7. use technology to identify and explore various occupations or careers, especially those related to science,
technology, engineering, and mathematics
6-8.TC.8. discuss possible uses of technology to support personal pursuits and lifelong learning
6-8.TC.9. understand and discuss how assistive technologies can benefit all individuals
6-8.TC.10. discuss security issues related to e-commerce
6-8.TC. Technology Operations and Concepts—By the end of grade 8 each student will:
Approved by the Michigan State Board of Education—October 2009 Page 3 of 3
