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6.
Minimum hours per week of independent work done
outside of class: 8 - 10
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Course
Preparation – (Supplemental form B
required) |
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7a.
Prerequisite(s):
(Course and/or other preparation/experience that
is REQUIRED
to be completed previous to enrollment in this
course.) |
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Completion of Math. 582
with a grade of "C" or better or placement by
the matriculation assessment
process
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7b.
Co-requisite(s): (Courses
and/or other preparation that is REQUIRED to be
taken concurrently with this
course.) |
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7c.
Advisory:
(Minimum preparation RECOMMENDED
in order to be successful in this
course. Also known as “Course
Advisory”.) |
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Catalog
Description And Other Catalog Information
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8.
Repeatability: |
Not Repeatable
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9a.
Grading Option: |
Standard Grade
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9b.
Catalog Description: |
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Real numbers and their
properties, first degree equations and
inequalities, graphs of linear equations in two
variables, systems of linear equations in two
variables, properties of integer exponents,
polynomial operations, basic factoring, rational
expressions, radical expressions, quadratic
equations, and applied problems and problem
solving.
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Course
Outline Information |
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10.
Student Performance Outcomes:
(Outcomes for all credit courses must
indicate that students will learn critical
thinking and will be able to apply concepts at
college level. Outcomes must be
related to items listed in Section 11.)
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Through homework
assignments, quizzes, exams, projects and
classroom discussions, the student will:
1.
execute basic operations with real numbers,
including positive and negative numbers,
fractions, decimals, and numbers with
exponents;
2. show equivalency of expressions
involving numbers and variables, using
properties of equality and the properties of
real numbers;
3. translate from written or
spoken language phrases and sentences to
algebraic phrases and sentences;
4. graph and
interpret graphs of linear equations in two
variables; identify intercepts, slope of a line,
and solution points;
5. graph regions
representing the solution to linear
inequalities;
6. find equation of a straight
line given a graph or information about the line
(e.g., given two points, or a point with the
slope or parallel/perpendicular
properties);
7. solve systems of linear
equations in two variables using the graphing
method, substitution method, and elimination
method;
8. analyze applied problems leading
to linear systems of equations and be able to
translate the problems into systems of equations
to solve;
9. simplify algebraic expressions
containing polynomials, simple radical
expressions, rational expressions, and integer
exponents;
10. translate numbers from
standard notation to scientific notation and
vice versa;
11. perform basic operations
(add, subtract, multiply, and divide) on
algebraic expressions containing polynomials,
simple radical expressions, rational
expressions, and integer exponents;
12.
analyze polynomial expressions to determine the
best approach to factoring, and recognize
non-factorable polynomials;
13. solve linear
equations, linear inequalities, linear absolute
value equations, simple radical equations, and
quadratic equations; represent solutions using
number lines when appropriate; and
14.
analyze applied problems associated with each
type of equation in #13, and be able to
translate the problems into algebraic equations
to solve. (e.g., calculating and using percents;
using geometric properties of area, perimeter,
volume, and right triangles; solving business
and science applications; and using the distance
formula).
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11.
Course Content Outline:
(Provides a comprehensive, sequential outline of
the course content, including all major subject
matter and the specific body of knowledge
covered.) |
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1. Real Numbers
A.
Signed numbers
B. Order of operations
C.
Properties of real numbers
2. Solving First
Degree Equations and Inequalities
A.
Simplifying algebraic expressions
B.
Evaluating algebraic expressions given values of
the variables
C. Solving linear equations
involving one variable
D. Isolating a
variable in a linear literal equation
E.
Solving word problems that lead to linear
equations
F. Solving first degree absolute
value equations
G. Solving linear
inequalities
3. Graphing
A. Cartesian
Coordinate System
B. Slope of a line
C.
Graphing linear equations
D. Equations of
lines
E. Graphing linear inequalities
4.
Systems of Linear Equations in Two
Variables
A. The graphing method
B. The
substitution method
C. The
elimination/addition method
D. Solving
applied problems that generate systems of
equations in two variables
5. Exponents and
Polynomials
A. Simplifying expressions
containing exponents
B. Adding and
subtracting polynomial expressions
C.
Multiplying polynomial expressions
D.
Dividing by a monomial
6. Factoring
A.
Greatest common factor
B. Difference of
squares
C. Grouping
D. Trinomials (AC
Method or Trial and Error)
E. Polynomials
requiring multiple factoring techniques
F.
Prime (non-factorable) polynomials
7.
Rational Expressions and Properties of
Exponents
A. Simplifying rational
expressions
B. Multiplying and dividing
rational expressions
C. Properties of integer
exponents
D. Scientific Notation
8.
Radicals
A. Simplifying radical
expressions
B. Adding, subtracting, and
multiplying radical expressions
C.
Rationalizing the denominator
D. Solving
equations containing a single radical
expression
E. The distance formula
F. The
Pythagorean Theorem
9. Solving Quadratic
Equations
A. By Square Root Property
B. By
Factoring
C. By Quadratic Formula
D.
Solving radical equations that lead to quadratic
equations
E. Solving word problems that lead
to quadratic equations
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12.
Typical Assignments:
(List types of assignments, including library
assignments.) |
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a.
Reading Assignments:
(Submit at least 2 examples)
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1. Students will read
selected topics throughout the course from the
textbook.
2. Students will read
supplementary handouts on topics and apply the
information in completing a homework
assignment.
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b.
Writing, Problem Solving or
Performance:
(Submit at least 2 examples)
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1. Students will complete
homework problems from the textbook on topics
throughout the course. Such problems may involve
computation, sketching graphs and diagrams,
solving equations, applying mathematical
concepts, or explaining mathematical
ideas.
2. Students will work in class to
solve application problems. For example, solving
mixture problems or business problems involving
interest rates.
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c.
Other
(Terms projects, research papers, portfolios,
etc.) |
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Program title - TOPS Code: |
Mathematics,
General- 170100
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SECTION
D |
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General
Education Information: |
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1. College
Associate Degree GE
Applicability: |
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Math
Competency
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2. CSU
GE Applicability (Recommended-requires CSU
approval): |
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3. IGETC
Applicability (Recommended-requires CSU/UC
approval): |
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4.
CAN: |
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SECTION
E |
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Articulation
Information: (Required
for Transferable courses only)
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1. |
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CSU
Transferable. |
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UC
Transferable. |
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CSU/UC
major requirement. |
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If
CSU/UC major requirement, list campus and major.
(Note: Must be lower division) |
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2.
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List
at least one community college and its
comparable course. If requesting CSU
and/or UC transferability also list a CSU/UC
campus and comparable lower division
course. |
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SECTION
F |
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Resources: |
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Please
consider the identified concerns below:
1.
Library: Please
identify the implications to the
library
None
2.
Computer Support Services: Please
identify the implications to Computer Support
Services:
None
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SECTION
G |
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1. Maximum
Class Size (recommended): 35
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2. If
recommended class size is not standard, then
provide rationale: |
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