Sophia Learning
Sophia: Simplifying Logarithmic Expressions: Lesson 11
This lesson will show you how to use the rules of simplifying to combine logs with common bases. It is 11 of 11 in the series titled "Simplifying Logarithmic Expressions."
Sophia Learning
Sophia: Exponential Equations: Lesson 2
In this lesson, the concept discussed is what makes an equation exponential and how the equation is normally solved. It is 2 of 5 in the series titled "Exponential Equations."
Khan Academy
Khan Academy: Chain Rule: Derivative of Log With Arbitrary Base
This video shows how to find the derivative of log with arbitrary base.
Study Pug
Study Pug: Converting From Logarithmic Form to Exponential Form
How do we convert log form to exponential form and vice versa? What's does converting log vs exponential form ultimately look like? Explore these questions through examples and a video. [1:03]
Sophia Learning
Sophia: Expanding Logarithmic Expressions: Lesson 5
This lesson will show you how to use the rules of expanding to spread out a logarithm. It is 5 of 10 in the series titled "Expanding Logarithmic Expressions."
Sophia Learning
Sophia: Expanding Logarithmic Expressions: Lesson 6
This lesson will show you how to use the rules of expanding to spread out a logarithm. It is 6 of 10 in the series titled "Expanding Logarithmic Expressions."
Sophia Learning
Sophia: Expanding Logarithmic Expressions: Lesson 1
This lesson will show you how to use the rules of expanding to spread out a logarithm. It is 1 of 10 in the series titled "Expanding Logarithmic Expressions."
Sophia Learning
Sophia: Expansion of Logarithmic Expressions: Lesson 2
Through this lesson, rules, laws, and principles of how to rewrite logarithms will be shown to expand a logarithm. It is 2 of 5 in the series titled "Expansion of Logarithmic Expressions."
Sophia Learning
Sophia: Expansion of Logarithmic Expressions: Lesson 5
Through this lesson, rules, laws, and principles of how to rewrite logarithms will be shown to expand a logarithm. It is 5 of 5 in the series titled "Expansion of Logarithmic Expressions."
Sophia Learning
Sophia: Expansion of Logarithmic Expressions: Lesson 1
Through this lesson, rules, laws, and principles of how to rewrite logarithms will be shown to expand a logarithm. It is 1 of 5 in the series titled "Expansion of Logarithmic Expressions."
Sophia Learning
Sophia: Exponential Equations: Lesson 3
In this lesson, the concept discussed is what makes an equation exponential and how the equation is normally solved. It is 3 of 5 in the series titled "Exponential Equations."
Sophia Learning
Sophia: Exponential to Logarithmic Format: Lesson 2
This lesson will show you how to use the proper formula and rewrite an equation as a logarithm and then again as an expression with an exponent. It is 2 of 10 in the series titled "Exponential to Logarithmic Format."
Sophia Learning
Sophia: Algebra 2: Exponential to Logarithmic Format: Lesson 4
This lesson will show you how to use the proper formula and rewrite an equation as a logarithm and then again as an expression with an exponent. It is 4 of 10 in the series titled "Exponential to Logarithmic Format." [2:55]
Sophia Learning
Sophia: Exponential to Logarithmic Format: Lesson 7
This lesson will show you how to use the proper formula and rewrite an equation as a logarithm and then again as an expression with an exponent. It is 7 of 10 in the series titled "Exponential to Logarithmic Format."
Sophia Learning
Sophia: Algebra 2: Exponential to Logarithmic Format: Lesson 8
This lesson will show you how to use the proper formula and rewrite an equation as a logarithm and then again as an expression with an exponent. It is 8 of 10 in the series titled "Exponential to Logarithmic Format." [2:59]
Sophia Learning
Sophia: Simplification of Logarithmic Expressions: Lesson 2
Through this lesson, rules, laws, and principles of how to rewrite logarithms will be shown to simplify a logarithm. It is 2 of 5 in the series titled "Simplification of Logarithmic Expressions."
Sophia Learning
Sophia: Simplification of Logarithmic Expressions: Lesson 3
Through this lesson, rules, laws, and principles of how to rewrite logarithms will be shown to simplify a logarithm. It is 3 of 5 in the series titled "Simplification of Logarithmic Expressions."
Sophia Learning
Sophia: Simplification of Logarithmic Expressions: Lesson 4
Through this lesson, rules, laws, and principles of how to rewrite logarithms will be shown to simplify a logarithm. It is 4 of 5 in the series titled "Simplification of Logarithmic Expressions."
Sophia Learning
Sophia: Simplification of Logarithmic Expressions: Lesson 5
Through this lesson, rules, laws, and principles of how to rewrite logarithms will be shown to simplify a logarithm. It is 5 of 5 in the series titled "Simplification of Logarithmic Expressions."
Sophia Learning
Sophia: Simplification of Logarithmic Expressions: Lesson 1
Through this lesson, rules, laws, and principles of how to rewrite logarithms will be shown to simplify a logarithm. It is 1 of 5 in the series titled "Simplification of Logarithmic Expressions."
Sophia Learning
Sophia: Simplifying Logarithmic Expressions: Lesson 2
This lesson will show you how to use the rules of simplifying to combine logs with common bases. It is 2 of 11 in the series titled "Simplifying Logarithmic Expressions."
Sophia Learning
Sophia: Simplifying Logarithmic Expressions: Lesson 6
This lesson will show you how to use the rules of simplifying to combine logs with common bases. It is 6 of 11 in the series titled "Simplifying Logarithmic Expressions."
Sophia Learning
Sophia: Using the Derivative of Natural Log in Integrals: Lesson 6
This lesson practices rewriting the integrand as the derivative of a function over the function in order to simplify integration. It is 6 of 7 in the series titled "Using the Derivative of Natural Log in Integrals."
Sophia Learning
Sophia: Using the Derivative of Natural Log in Integrals: Lesson 7
This lesson practices rewriting the integrand as the derivative of a function over the function in order to simplify integration. It is 7 of 7 in the series titled "Using the Derivative of Natural Log in Integrals."