An intermediate study of Algebra, logic, probability, and statistics. The student will demonstrate a deeper understanding and application of the mathematical principles.
Competencies:
- Introduce inductive reasoning and help develop problem-solving strategies;
- Review elementary set theory and expose the student to elementary logic;
- Examine and compare different numeration systems;
- Analyze the different subsets of real numbers (natural numbers, whole numbers, integers, etc.);
- Promote an understanding of elementary statistics and probability;
- Review the basics of plane geometry along with some solid geometry;
- Develop and understanding of constructions, congruence, and similarity.
- Cover the basic concepts of measurements and introduce coordinate geometry.
A review of Algebra and an introduction to logic, probability, and statistics. The student will demonstrate a practical understanding and application of mathematical principles.
Competencies:
- Use several methods, such as algebraic, geometric and statistical reasoning to solve problems.
- Interpret and draw inferences from mathematical models such as formulas, graphs, and tables.
- Generalize from specific patterns and phenomena to more abstract principles and to proceed from abstract principles to specific applications.
- Represent mathematical information symbolically, graphically, numerically andverbally.
- Estimate and verify answers to mathematical problems to determine reasonableness, compare alternatives, and select optimal results.
A review of Algebra and an introduction to logic, probability, and statistics. The student will demonstrate a practical understanding and application of mathematical principles.
Competencies:
- Use several methods, such as algebraic, geometric and statistical reasoning to solve problems.
- Interpret and draw inferences from mathematical models such as formulas, graphs, and tables.
- Generalize from specific patterns and phenomena to more abstract principles and to proceed from abstract principles to specific applications.
- Represent mathematical information symbolically, graphically, numerically andverbally.
- Estimate and verify answers to mathematical problems to determine reasonableness, compare alternatives, and select optimal results.
A review of Algebra and an introduction to logic, probability, and statistics. The student will demonstrate a practical understanding and application of mathematical principles.
Competencies:
- Use several methods, such as algebraic, geometric and statistical reasoning to solve problems.
- Interpret and draw inferences from mathematical models such as formulas, graphs, and tables.
- Generalize from specific patterns and phenomena to more abstract principles and to proceed from abstract principles to specific applications.
- Represent mathematical information symbolically, graphically, numerically andverbally.
- Estimate and verify answers to mathematical problems to determine reasonableness, compare alternatives, and select optimal results.
A review of Algebra and an introduction to logic, probability, and statistics. The student will demonstrate a practical understanding and application of mathematical principles.
Competencies:
- Use several methods, such as algebraic, geometric and statistical reasoning to solve problems.
- Interpret and draw inferences from mathematical models such as formulas, graphs, and tables.
- Generalize from specific patterns and phenomena to more abstract principles and to proceed from abstract principles to specific applications.
- Represent mathematical information symbolically, graphically, numerically andverbally.
- Estimate and verify answers to mathematical problems to determine reasonableness, compare alternatives, and select optimal results.
A review of Algebra and an introduction to logic, probability, and statistics. The student will demonstrate a practical understanding and application of mathematical principles.
Competencies:
- Use several methods, such as algebraic, geometric and statistical reasoning to solve problems.
- Interpret and draw inferences from mathematical models such as formulas, graphs, and tables.
- Generalize from specific patterns and phenomena to more abstract principles and to proceed from abstract principles to specific applications.
- Represent mathematical information symbolically, graphically, numerically andverbally.
- Estimate and verify answers to mathematical problems to determine reasonableness, compare alternatives, and select optimal results.