Logarithms are the inverse operations of exponentiation. The logarithm base of a number represents the exponent to which the constant base must be raised to obtain the power.
Logarithmic functions help solve exponential equations and have applications in various fields, including finance and science.

Introduction

Logarithms are the inverse operations of exponentiation. Logarithmic functions help solve exponential equations and have applications in various fields, including finance and science.

Lesson 1: Graphing Logarithms

Logarithms are the inverse operations of exponentiation. The logarithm base of a number represents the exponent to which the constant base must be raised to obtain the power.

Lesson 2: Intro to Logarithms

Logarithms are the inverse operations of exponentiation. The logarithm base of a number represents the exponent to which the constant base must be raised to obtain the power.

Lesson 3: Laws of Logarithms I

Logarithms are the inverse operations of exponentiation. The logarithm base of a number represents the exponent to which the constant base must be raised to obtain the power.

Lesson 4: Laws of Logarithms II

Logarithms are the inverse operations of exponentiation. The logarithm base of a number represents the exponent to which the constant base must be raised to obtain the power. Logarithmic functions help solve exponential equations and have applications in various fields, including finance and science.

Lesson 5: Logarithmic Equations

Logarithms are the inverse operations of exponentiation. The logarithm base of a number represents the exponent to which the constant base must be raised to obtain the power. Logarithmic functions help solve exponential equations and have applications in various fields, including finance and science.

Lesson 6: Applications