Course Outline for Mathematics 65A, Page 1

Chabot College

Course Outline for Mathematics 65A, Page 1

Fall 2005

Chabot College Fall 2005

Replaced Fall 2006

Course Outline for Mathematics 65A

ELEMENTARY ALGEBRA A

Catalog Description:

65A – Elementary Algebra A3 units

Concepts covered in the first half of Mathematics 65, including signed numbers, polynomials and integer exponents; linear equations and inequalities; introduction to graphs; set theory. Designed for those with no previous algebra background. Prerequisite: Mathematics 105 or 105L, (both completed witha grade of C or higher) or an appropriate skill level demonstrated through the Mathematics Assessment process. May not receive credit if Mathematics 65 or 65L has been completed. May be offered in Distance Education delivery format. 3 hours lecture, 0-1 hour laboratory.

Prerequisite Skills:

Before entering the course the student should be able to:

1. perform computations with fractions, decimals, and signed numbers without a calculator;
2. build and simplify fractions;
3. convert between decimals, percents, and fraction representations;
4. determine the prime factorization of a natural number;
5. interpret natural number exponents;
6. apply the associative, commutative, and distributive laws;
7. apply the order of operations in evaluating expressions;
8. perform unit conversions in U.S. standard and metric units;
9. solve problems using ratios, proportions and percents;
10. find the areas, perimeters, and volumes of geometric figures and objects;
11. translate between words and the mathematical symbols for variables and operations.

11.interpret operations and variables in algebraic expressions;

12.create, interpret, and solve simple linear equations;

13.graph simple relationships between two variables;

14.solve word problems, including those using formulas and linear equations.

Expected Outcome for Students:

Upon completion of the course, the student should be able to:

1. write using set theory notation;
2. apply order of operations to simplify algebraic expressions;
3. solve linear equations in one variable;
4. solve and graph linear inequalities in one variable;
5. graph linear equations in two variables by various methods;
6. add, subtract, multiply, and divide polynomials;
7. apply the formula for squaring the binomial;
8. apply algebraic methods to solve word problems;
9. solve formulas for any given variable;
10. apply the properties of integral exponents;
11. convert between scientific notation and standard notation;
12. find the slope of a line from the graph and from the definition.

Course Content:

1. Set Theory notation
2. Real number System
3. Properties of addition and multiplication
4. Absolute value
5. Order of operations

Course Content – continued:

1. Graphing on the number line

1. Algebraic expressions
2. Linear equations
3. Solving
4. Applications
5. Formulas
6. Linear inequalities in one variable
7. Solving
8. Graphing on the number line
9. Applications
10. Operations and simplifying polynomials
11. Graphing linear equations in two variables
12. Plotting points
13. Plotting intercepts
14. Finding slope
15. From the graph
16. From two points
17. Exponents
18. Integral
19. Scientific notation

Methods of Presentation:

1. Informal lectures
2. Class discussion of problems, solutions and students’ questions
3. Audio-visual materials

Assignments and Methods of Evaluating Student Progress:

1. Typical Assignments
2. Exercises from the text book

The balance in Wills’ Mastercard® account grew 2% to $870 in one month. What was his balance at the beginning of the month?

1. Collaboratives

Ask the students to work together to solve four application problems.

1. Methods of Evaluating Student Progress
2. Homework
3. Quizzes
4. Class participation
5. Midterms
6. Final Exam

Textbook(s) (Typical):

Elementary Algebra Concepts and Applications, Bittenger and Ellenbogen, Addison Wesley, 2002

C. Wieser Curriculum/math/65A/992000 Hps

Css Revised: 09/20/00 Css Revised: 03/23/01 Revised: 08-23-02 MATH 65A Outline Fall 2003 (Stubblebine)