
Math Courses by Alison
These online Math courses will guide you through basic and advanced Math principles on everything from Fractions and Algebra to Geometry and Calculus. By taking these courses and improving your Math skills, you'll gain a solid foundation that can be applied in almost every job in the world today

College Algebra by Saylor Academy
In this course, you will be introduced to basic algebraic operations and concepts, as well as the structure and use of algebra. Topics include linear inequalities and graphing, exponents, polynomials, and rational expressions.

Calculus I by Saylor Academy
Calculus is among the most important and useful developments of human thought. Even though it is over 300 years old, it is still considered the beginning and cornerstone of modern mathematics. It is a wonderful, beautiful, and useful set of ideas and techniques

Introduction to Statistics by Saylor Academy
The purpose of this course is to introduce you to the subject of statistics as a science of data. There is data abound in this information age; how to extract useful knowledge and gain a sound understanding in complex data sets has been more of a challenge.

Algebra by Saylor Academy
In this course, we explore how to use standard mathematical and business formulas, and how to translate verbal descriptions into mathematical equations to establish relationships and create predictions.

Calculus I by Saylor Academy
Calculus is among the most important and useful developments of human thought. Even though it is over 300 years old, it is still considered the beginning and cornerstone of modern mathematics. It is a wonderful, beautiful, and useful set of ideas and techniques

Mathematical Reasoning by Saylor Academy
The main purpose of this course is to bridge the gap between introductory mathematics courses in algebra, linear algebra, and calculus on one hand and advanced courses like mathematical analysis and abstract algebra, on the other hand, which typically require students to provide proofs of propositions and theorems