| All students will develop their understanding of algebraic concepts and processes through experiences which enable them to describe, represent, and analyze relationships among variable quantities and to apply algebraic methods to solve meaningful problems. |
The algebra which is appropriate for all students in the twenty-first century moves away from a tight focus on manipulating symbols to include a greater emphasis on conceptual understanding, on algebra as a means of representation, and on algebraic methods as problem-solving tools. These changes in emphasis are a result of changes in technology and the resulting changes in the needs of society.
The vision proposed by this Framework stresses the need to prepare students for a world that is rapidly changing in response to technological advances. Throughout history, the use of mathematics has changed with the growing demands of society as human interaction extended to larger groups of people. In the same way that increased trade in the fifteenth century required businessmen to replace the use of Roman numerals with the Hindu system and teachers changed what they taught, today's education must reflect the changes in content required by today's society. More and more, the ability to use algebra in describing and analyzing real-world situations is a basic skill. Thus, this standard calls for algebra for all students.
What will students gain by studying algebra? In a 1993 conference on Algebra for All, the following points were made in response to the commonly asked question, "Why study algebra?"
As students develop their understanding of different arithmetic operations, they also need to focus on the properties of these operations as examples of patterns. Students should describe the patterns that they find in looking at these operations both in words and in symbols.
In the middle grades, problem situations should provide opportunities to generalize patterns and use additional symbols such as names and literal variables (letters). This development should continue throughout the remainder of their program, ensuring that the relationship between the variables (unknowns) and the quantities they represent is consistently stressed. Middle school students should extend their ability to use algebra to generalize patterns by exploring different types of relationships. They explore and generalize patterns which arise from nature, including non-linear relationships. As students move into the secondary grades, the graphing calculator and graphing software provide tools for examining relationships between intercepts and roots, between turning points and maximum or minimum values, and between the slope of a curve and its rate of change. As the student continues through high school, similar experiences should be provided for other functions, such as exponential and polynomial functions, developing these functions from situations to which students can relate.
The use of algebra as a tool to model real world situations requires the ability to represent data in tables, pictures, graphs, equations or inequalities, and rules. Through exploration of problems and number patterns, elementary students are provided with opportunities to develop the ability to use concrete materials as well as the representations mentioned above. Having students use multiple representations for the same situation helps them develop an understanding of the connections among them. The opportunity to verbally explain these different representations and their connections provides the foundation for more formal expressions.
A fundamental skill in algebra is the evaluation of expressions and the solution of equations and inequalities. This ability can be difficult to understand unless it is related to situations which give them meaning. Expressions, equations, and inequalities should arise from students exploration in a variety of areas such as statistics, probability, and geometry. Elementary students begin constructing and solving open sentences such as those encountered in missing addend problems. The use of concrete materials and calculators allow them to explore solutions to real-life situations. Gradually, students are led to expand these informal methods to include graphical solutions and formal methods. The relationship between the solutions of equations and the graphs must be stressed regularly.
In summary, there are algebraic concepts and skills which all students must know and apply confidently regardless of their ultimate career. To assure that all children have access to such learning, algebraic thinking must be woven throughout the entire fabric of the mathematics curriculum.