GLEN RIDGE PUBLIC SCHOOLS
Curriculum Format
Course Title: ALGEBRA II C.P.
Subject: Mathematics
Grade Level: Grade 10 – 12
Department/School: Mathematics/Glen
Ridge High School
Duration: Full year
Number of Credits: 5
Prerequisite: Geometry
Elective or Required: Required
Author: Kevin George
Date
Submitted: July 2007
Course
Description
The
major topics covered include the properties of real numbers, linear equations,
inequalities, systems and functions, rational expressions, radicals and
irrational numbers, quadratic equations and functions, exponential functions,
logarithms, sequences and series including binomial expansion, permutations,
combinations and probability, and matrices.
GLEN RIDGE
PUBLIC SCHOOLS
MATHEMATICS
Mathematics
and Computer Science are an integral part of our lives. Students must be actively involved in their
mathematics education with problem solving being an essential part of the
curriculum. The mathematics and computer
science curricula should emphasize thinking skills through a balance of
computation, intuition, common sense, logic, analysis and technology. Students will be engaged and challenged in a
student-centered learning environment that is developmentally appropriate. Students will communicate mathematical ideas
effectively by applying hands-on manipulatives, basic computational skills,
mathematical models, and technology in order to solve practical problems.
The Mathematics Standards
consist of five statements, which describe what is essential to excellent
mathematics education, and present a view of mathematics teaching and learning
that integrates the processes of mathematical activity, the content of
mathematics, and the learning environment in the classroom. The following standards were adopted by the
New Jersey State Board of Education.
This course will cover the
following Core Curriculum Standards:
STANDARD 4.1 (NUMBER AND NUMERICAL OPERATIONS) ALL
STUDENTS WILL DEVELOP NUMBER SENSE AND WILL PERFORM STANDARD NUMERICAL
OPERATIONS AND ESTIMATIONS ON ALL TYPES OF NUMBERS IN A VARIETY OF WAYS.
Descriptive Statement: Numbers and
arithmetic operations are what most of the general public think about when they
think of mathematics; and, even though other areas like geometry, algebra, and
data analysis have become increasingly important in recent years, numbers and
operations remain at the heart of mathematical teaching and learning. Facility with numbers, the ability to choose
the appropriate types of numbers and the appropriate operations for a given
situation, and the ability to perform those operations as well as to estimate
their results, are all skills that are essential for modern day life.
Building upon knowledge and skills gained in preceding
grades, by the end of Grade 12, students will:
- Number Sense
1. Extend understanding of the number system to all real
numbers.
2. Compare and order rational and irrational numbers.
3. Develop conjectures and informal proofs of properties
of number systems and sets of numbers.
- Numerical Operations
1. Extend understanding and use of operations to real
numbers and algebraic procedures.
2. Develop, apply, and explain methods for solving
problems involving rational and negative exponents.
3. Perform operations on matrices.
§
Addition and
subtraction
§
Scalar
multiplication
4. Understand and apply the laws of exponents to simplify
expressions involving numbers raised to powers.
- Estimation
1.
Recognize the
limitations of estimation, assess the amount of error resulting from
estimation, and determine whether the error is within acceptable tolerance
limits.
STANDARD 4.2 (GEOMETRY AND MEASUREMENT) ALL STUDENTS
WILL DEVELOP SPATIAL SENSE AND THE ABILITY TO USE GEOMETRIC PROPERTIES,
RELATIONSHIPS, AND MEASUREMENT TO MODEL, DESCRIBE AND ANALYZE PHENOMENA.
Descriptive Statement: Spatial sense
is an intuitive feel for shape and space.
Geometry and measurement both involve describing the shapes we see all
around us in art, nature and the things
we make. Spatial sense, geometric
modeling, and measurement can help us to describe and interpret our physical
environment and to solve problems.
Building upon knowledge and skills gained in preceding
grades, by the end of Grade 12, students will:
A. Geometric
Properties
1. Use geometric models to represent real-world
situations and objects and to solve problems using those models (e.g., use
Pythagorean Theorem to decide whether an object can fit through a doorway).
2. Draw perspective views of 3D objects on isometric dot
paper, given 2D representations (e.g., nets or projective views).
3. Apply the properties of geometric shapes.
§
Parallel lines –
transversal, alternate interior angles, corresponding angles
§
Triangles
a. Conditions for congruence
b. Segment joining midpoints of two sides is parallel to
and half the length of the third side
c. Triangle Inequality
§
Minimal
conditions for a shape to be a special quadrilateral
§
Circles – arcs,
central and inscribed angles, chords, tangents
§
Self-similarity
4. Use reasoning and some form of proof to verify or
refute conjectures and theorems.
§
Verification or
refutation of proposed proofs
§
Simple proofs
involving congruent triangles
§
Counterexamples
to incorrect conjectures
B. Transforming
Shapes
1. Determine, describe, and draw the effect of a transformation,
or a sequence of transformations, on a geometric or algebraic object, and,
conversely, determine whether and how one object can be transformed to another
by a transformation or a sequence of transformations.
2. Recognize three-dimensional figures obtained through
transformations of two-dimensional figures (e.g., cone as rotating an isosceles
triangle about an altitude), using software as an aid to visualization.
3. Determine whether two or more given shapes can be used
to generate a tessellation.
4. Generate and analyze iterative geometric patterns.
§
Fractals (e.g.,
Sierpinski’s Triangle)
§
Patterns in areas
and perimeters of self-similar figures
§
Outcome of
extending iterative process indefinitely
C. Coordinate
Geometry
1. Use coordinate geometry to represent and verify
properties of lines.
§
Distance between
two points
§
Midpoint and
slope of a line segment
§
Finding the
intersection of two lines
§
Lines with the
same slope are parallel
§
Lines that are
perpendicular have slopes whose product is –1
2. Show position and represent motion in the coordinate
plane using vectors.
§
Addition and
subtraction of vectors
D. Units of Measurement
1. Understand and use the concept of significant digits.
2. Choose appropriate tools and techniques to achieve the
specified degree of precision and error needed in a situation.
3. Degree of accuracy of a given measurement tool.
4. Find the interval in which a computed measure (e.g.,
area or volume) lies, given the degree of precision of linear measurements.
E. Measuring Geometric Objects
1.
Use techniques of
indirect measurement to represent and solve problems.
§
Similar triangles
§
Pythagorean
theorem
§
Right triangle
trigonometry (sine, cosine, tangent)
2. Use a variety of strategies to determine perimeter and
area of plane figures and surface area and volume of 3D figures.
§
Approximation of
area using grids of different sizes
§
Find which shape
has minimal (or maximal) area, perimeter, volume, or surface area under given
conditions using graphing calculators, dynamic geometric software, and/or
spreadsheets
§
Estimation of
area, perimeter, volume, and surface area
STANDARD 4.3 (PATTERNS AND ALGEBRA) ALL STUDENTS WILL
REPRESENT AND ANALYZE RELATIONSHIPS AMONG VARIABLE QUANTITIES AND SOLVE
PROBLEMS INVOLVING PATTERNS, FUNCTIONS, AND ALGEBRAIC CONCEPTS AND PROCESSES.
Descriptive Statement: Algebra is a
symbolic language used to express mathematical relationships. Students need to understand how quantities
are related to one another, and how algebra can be used to concisely express
and analyze those relationships. Modern
technology provides tools for supplementing the traditional focus on algebraic
procedures, such as solving equations, with a more visual perspective, with
graphs of equations displayed on a screen.
Students can then focus on understanding the relationship between the
equation and the graph, and on what the graph represents in a real-life
situation.
Building upon knowledge and skills gained in preceding
grades, by the end of Grade 12, students will:
A. Patterns
1.
Use models and
algebraic formulas to represent and analyze sequences and series.
§
Explicit formulas
for nth terms
§
Sums of finite
arithmetic series
§
Sums of finite
and infinite geometric series
2. Develop an informal notion of limit.
3. Use inductive reasoning to form generalizations.
B. Functions and Relationships
1. Understand relations and functions and select, convert
flexibly among, and use various representations for them, including equations
or inequalities, tables, and graphs.
2. Analyze and explain the general properties and
behavior of functions of one variable, using appropriate graphing technologies.
§
Slope of a line
or curve
§
Domain and range
§
Intercepts
§
Continuity
§
Maximum/minimum
§
Estimating roots
of equations
§
Intersecting
points as solutions of systems of equations
§
Rates of change
3. Understand and perform transformations on
commonly-used functions.
§
Translations,
reflections, dilations
§
Effects on linear
and quadratic graphs of parameter changes in equations
§
Using graphing
calculators or computers for more complex functions
4. Understand and compare the properties of classes of
functions, including exponential, polynomial, rational, and trigonometric
functions.
§
Linear vs.
non-linear
§
Symmetry
§
Increasing/decreasing
on an interval
C. Modeling
1. Use functions to model real-world phenomena and solve
problems that involve varying quantities.
§
Linear,
quadratic, exponential, periodic (sine and cosine), and step functions (e.g.,
price of mailing a first-class letter over the past 200 years)
§
Direct and
inverse variation
§
Absolute value
§
Expressions,
equations and inequalities
§
Same function can
model variety of phenomena
§
Growth/decay and
change in the natural world