FIFTH GRADE
Accomplishments

Number and Operations

Content Standard 1.0 The student will develop number and operation sense needed to represent numbers and number relationships verbally, symbolically, and graphically and to compute fluently and make reasonable estimates in problem solving.

5.1.1 Understand numbers, ways of representing numbers, relationships among numbers, and number systems.

1. read and write numbers from thousandths to millions;
2. name the place value of a given digit from thousandths to millions;
3. use various models to show relationships among whole numbers, fractions, mixed numbers, and decimals (e.g., number lines, base ten blocks, Venn diagrams, hundreds boards);
4. communicate using mathematical language and symbols;
5. model proper fractions, improper fractions, and mixed numbers;
6. show the relationship between improper fractions and mixed numbers;
7. recognize and generate equivalent forms of commonly used fractions, decimals, and percents (e.g., 1/10, 1/4, 1/2, 3/4);
8. recognize relationships among commonly used fractions and decimals.

5.1.2 Understand meanings of operations and how they relate to one another.

1. use commutative, associative, and identity properties;
2. explain and demonstrate the inverse nature of addition and subtraction;
3. explain and demonstrate the inverse nature of multiplication and division;
4. communicate the effects of addition, subtraction, multiplication, and division on size and order of numbers.

5.1.3 Solve problems, compute fluently, and make reasonable estimates.

1. select appropriate methods and tools for computations (e.g., mental computation, estimation, calculators, paper and pencil);
2. explain why one from of a number might be more useful for computation than another form;
3. recognize reasonable estimates for operations;
4. add, subtract, multiply, and divide whole numbers and decimals;
5. use models, benchmarks, and equivalent forms to add and subtract commonly used fractions with like and unlike denominators;
6. identify missing information and/or too much information in real-world problems;
7. solve multi-step real-world problems;
8. solve real-world problems using decimals, fractions, and percents.

Algebra

Content Standard 2.0 The student will understand and generalize patterns as they represent and analyze quantitative relationships and change in a variety of contexts and problems using graphs, tables, and equations.

5.2.1 Represent and analyze patterns, relations, and functions.

1. generalize and extend geometric and numerical patterns;
2. represent and analyze patterns and functions using words, tables, and graphs;
3. apply basic function rules.

5.2.2 Represent and analyze mathematical situations and structures using algebraic symbols.

1. demonstrate understanding that an equation is a number sentence stating two quantities are equal;
2. solve open sentences using informal methods and knowledge of operations;
3. represent the idea of a variable as an unknown quantity using a letter or a symbol;
4. express mathematical relationships using equations.

5.2.3 Illustrate general properties of operations.

1. apply commutative, associative, zero, distributive, and identity properties;
2. show that division is not commutative.

5.2.4 Analyze change in various contexts.

1. investigate how a change in one variable relates to a change in a second variable;
2. use a variety of methods to compare and describe situations involving constant and/or varying rates of change.

Geometry

Content Standard 3.0

The student will develop an understanding of geometric concepts and relationships as the basis for geometric modeling and reasoning to solve problems involving one-, two-, and three-dimensional figures.

5.3.1 Analyze characteristics and properties of two- and three-dimensional shapes.

1. identify, compare, and analyze attributes of two- and three-dimensional figures;
2. use the attributes of geometric figures to develop definitions;
3. draw points, lines, line segments, rays, and angles;
4. identify and describe the attributes of a circle using appropriate mathematical language (e.g., radius, diameter, center);
5. use properties to classify geometric figures;
6. investigate and describe the results of subdividing and combining geometric figures;
7. compare and contrast congruent and symmetrical geometric figures;
8. describe characteristics of lines and angles (e.g., parallel, perpendicular, intersecting, right, acute, obtuse);
9. make and test hypothesis about geometric properties;
10. explore similarity.

5.3.2 Specify locations and describe spatial relationships using coordinate geometry and other representational systems.

1. describe location and movement using appropriate mathematical language;
2. find and specify points in Quadrant I of a coordinate system.

 5.3.3 Apply transformations and use symmetry to analyze mathematical situations.

1. investigate, predict, and describe the results of transformations of two-dimensional figures (i.e., slides, flips, turns);
2. describe line and rotational symmetry in two-dimensional figures;
3. describe a motion or a series of motions that will show that two shapes are congruent.

5.3.4 Use visualization, spatial reasoning, and geometric modeling to solve problems.

1. construct and draw two- and three-dimensional geometric figures;
2. create and describe mental images of objects, patterns, and paths;
3. build a three-dimensional object from a two-dimensional representation (nets) of that object;
4. use visualization and spatial reasoning to solve real-world problems.

Measurement

Content Standard 4.0

The student will become familiar with the units and processes of measurement in order to use a variety of tools, techniques, and formulas to determine and to estimate measurements in mathematical and real-world problems.

5.4.1 Understand measurable attributes of objects and the units, systems, and processes of measurement.

1. demonstrate understanding of the concepts of length, perimeter, circumference, area, weight, capacity, volume, elapsed time, and angle measure;
2. demonstrate understanding that measurements are approximations;
3. understand how differences in units affect precision;
4. demonstrate understanding of the relationships among the units within the same system of measurements;
5. explore what happens to measurements of a two-dimensional shape when the shape is changed in some way (e.g., perimeter, area).

5.4.2 Apply appropriate techniques, tools, and formulas to determine measurements.

1. apply and explain appropriate estimation strategies using standard units of measure;
2. select and apply appropriate standard units to measure length, perimeter, area, capacity, volume, weight, time, temperature, and angles;
3. select and use appropriate tools for measuring in real-world situations;
4. solve real-world problems involving measurement and elapsed time;
5. read and record temperature using Fahrenheit and Celsius scales;
6. develop, understand, and use formulas to find the area of parallelograms and triangles;
7. explain and demonstrate how scale in maps and drawings shows relative size and distance;
8. develop informal strategies to determine the surface area and volume of rectangular solids.

Data Analysis and Probability

Content Standard 5.0

The student will understand and apply basic statistical and probability concepts as they, organize, and analyze data, and to make predictions and conjectures.

5.5.1 Formulate questions that can be addressed with data and collect, organize, and display relevant data to answer questions.

1. collect data using observations, surveys, and experiments;
2. understand how data-collection methods affect the nature of the data set;
3. represent data using pictographs, bar graphs, tables, circle graphs, and line graphs;
4. interpret data displayed in pictographs, bar graphs, tables, circle graphs, and line graphs.

5.5.2 Select and use appropriate statistical methods to analyze data.

1. use measures of central tendency (i.e., mean, median, mode);
2. relate mean, median, and mode to a visual representation of a data set;
3. find the range of a data set.

5.5.3 Develop and evaluate inferences and predictions that are based on data.

1. make predictions and justify conclusions based on data;
2. design investigations to address a question;
3. examine various representations of data to evaluate how accurately the data is depicted;
4. explain the importance of sample size in investigations.

5.5.4 Understand and apply basic concepts of probability.

1. describe the likelihood or chance of events as likely, unlikely, certain, equally likely, or impossible;
2. use a sample space to predict the probability of an event;

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