Assessment in this unit
Key Ideas, Expectations, and Opportunities
Using Assessment to Meet Individual Needs
The explicit Expectations and assessment tasks in this unit describe what it means to “get it.” Providing feedback on these Expectations helps identify students who need to access the content another way, need further practice opportunities, or are ready to extend or deepen their understanding of a concept. Instructional opportunities that help support the varied needs of students also need to be identified. These opportunities provide models that can be replicated or used multiple times, and can be used in a variety of settings (e.g., home, transitions, support classroom, as a center).
The Assessment Program serves the
following purposes:
- It provides information to teachers about what students know and can do. This information is used to guide instruction. An activity may help teachers answer questions about whole-class instruction: What do I do next? In the next minute? Next lesson? Next class? Next unit? Other assessments may help teachers decide how to support individual students, including those who struggle with a concept and those who are ready to be challenged.
- It communicates the goals of instruction to parents and students. What teachers choose to assess communicates to the class what they value. For example, if teachers want students to work hard at communicating problem-solving strategies, then it is important to assess mathematical communication.
- It provides feedback to students and parents about student progress. This includes teacher evaluation of student progress as well as students' assessment of their own progress.
Key Mathematical Ideas
The mathematical content in Math Trailblazers is organized around a set of Key Ideas. These Key Ideas are based on the National Council of Teachers of Mathematics (NCTM) Standards for the grade band as well as current thinking in the mathematics education community, e.g., Charles (2005), NCTM (2000), Van de Walle (2006). There is a set of Key Ideas for each content strand: Number, Algebra, Geometry, Measurement, and Data. They are based on “big ideas” in mathematics and describe what students should be able to do within each strand. The Key Ideas are shown in the table in Figure 1.
1. Number Sense: Understand the base-ten number system, recognize relationships among quantities and numbers, and represent numbers in multiple ways. |
2. Operations: Understand the meaning of numerical operations and their application for solving problems. |
3. Computation and Estimation: Use efficient and flexible procedures to compute accurately and make reasonable estimates. |
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1. Identifying Patterns: Identify and describe patterns and relationships, including how a change in one variable relates to a change in a second variable. |
2. Tables and Graphs: Represent patterns and relationships with graphs, tables, and diagrams. |
3. Symbols: Represent patterns and relationships with symbols (includes using variables in formulas and as unknowns in equations). |
4. Using Patterns: Apply relationships, properties, and patterns to solve problems, develop generalizations, or make predictions. |
1. Shapes: Identify, describe, classify, and analyze 2- and 3-dimensional shapes based on their properties. |
2. Orientation and Location: Use coordinate systems to specify locations and describe spatial relationships. |
3. Motion: Apply transformations (slides, flips, and turns) and use symmetry to analyze mathematical situations. |
4. Geometric Reasoning: Use visualization, spatial reasoning, and geometric modeling to solve problems. |
1. Measurement Concepts: Understand measurable attributes of objects or situations (length, area, mass, volume, size, time) and the units, systems, and processes of measurement. |
2. Measurement Skills: Use measurement tools, appropriate techniques, and formulas to determine measurements. |
1. Data Collection: Select, collect, and organize data to answer questions, solve problems, and make predictions. |
2. Data Representation: Select and create appropriate representations, including tables and graphs, for organizing, displaying, and analyzing data. |
3. Data Description: Describe a data set by interpreting graphs, identifying patterns, and using statistical measures, e.g., average and range. |
4. Using Data: Apply relationships and patterns in data to solve problems, develop generalizations, and make predictions. |
Figure 1: Key Ideas for Math Trailblazers (Key Ideas addressed in Unit 13 are shaded.)
Expectations
To monitor students' growth across and within grades, there are a set of Expectations that describe what students are “expected” to do within each content strand. Expectations show the growth of the mathematical content within the Key Ideas for each strand.
EXPECTATIONS |
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Use this list of expectations to assess students on the key concepts and skills in this unit. |
E1* |
Represent 2-digit by 1-digit multiplication and multidigit division problems using counters, tiles, rectangular arrays, drawings, stories, and number sentences. |
E2 |
Show connections between models and strategies for multiplication (e.g., demonstrate partial products using a rectangle model for multiplication). |
E3 |
Solve multidigit multiplication problems using mental math strategies (e.g., composing and decomposing numbers, and doubling and halving). |
E4 |
Solve multidigit division problems using mental math strategies (e.g., thinking multiplication, repeated subtraction, using turn-around facts). |
E5 |
Multiply one-digit whole numbers by multiples of ten. |
E6 |
Interpret remainders of multidigit division problems. |
E7 |
Solve multiplication problems by breaking products into the sum of simpler products (applying the distributive property of multiplication over addition) using a rectangle model and paper-and-pencil methods (e.g., all partials). |
E8 |
Solve multistep word problems involving the four operations. |
E9 |
Use the relationship between larger and smaller units of measure to solve problems. |
E10 |
Measure volume to the nearest cubic centimeter using a graduated cylinder (e.g., through displacement, by filling container). |
E11* |
Estimate volume by counting cubic centimeters. |
E12 |
Find the median of a data set. |
E13 |
Make predictions and solve problems using patterns in data represented in data tables and bar graphs. |
E14* |
Demonstrate fluency with the multiplication facts for the last six facts (4 × 6, 4 × 7, 4 × 8, 6 × 7, 6 × 8, 7 × 8). |
E15* |
Determine the unknown number in a multiplication or division sentence relating three whole numbers for the last six facts (4 × 6, 4 × 7, 4 × 8, 6 × 7, 6 × 8, 7 × 8). |
E16* |
Demonstrate fluency with all the multiplication facts. |
Targeted Practice
This unit provides opportunities for additional targeted practice for some of the Expectations. See the chart in Figure 3 and the descriptions that follow. These opportunities connect directly to assessment tasks so the practice can be tailored to the current level of student progress.
- For students who are struggling with the Expectation, practice is targeted toward the foundational concepts and skills involved and often provides a different way to access the content.
- For students who are making significant progress toward the Expectation, practice is designed to help move toward proficiency and autonomy.
- For students who are already meeting the Expectation, opportunities are provided to deepen or extend understanding.
Expectation |
Opportunity for Targeted Practice |
E1. |
Represent 2-digit by 1-digit multiplication and multidigit division problems using counters, tiles, rectangular arrays, drawings, stories, and number sentences. |
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E2. |
Show connections between models and strategies for multiplication (e.g., demonstrate partial products using a rectangle model for multiplication). |
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E3. |
Solve multidigit multiplication problems using mental math strategies (e.g., composing and decomposing numbers, and doubling and halving). |
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E5. |
Multiply one-digit whole numbers by multiples of ten. |
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E7. |
Solve multiplication problems by breaking products into the sum of simpler products (applying the distributive property of multiplication over addition) using a rectangle model and paper-and-pencil methods (e.g., all partials). |
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E10. |
Measure volume to the nearest cubic centimeter using a graduated cylinder (e.g., through displacement, by filling container). |
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E11. |
Estimate volume by counting cubic centimeters. |
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E14. |
Demonstrate fluency with the multiplication facts for the last six facts (4 × 6, 4 × 7, 4 × 8, 6 × 7, 6 × 8, 7 × 8). |
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E15. |
Determine the unknown number in a multiplication or division sentence relating three whole numbers for the last six facts (4 × 6, 4 × 7, 4 × 8, 6 × 7, 6 × 8, 7 × 8). |
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Figure 3: Expectations for Unit 13 with opportunities for targeted practice
Activities
There are three activities in this unit that can be modified to provide targeted practice. These activities can be placed in a learning center or completed in another setting.