This tutorial discusses the concept of the derivative, including the "first principles definition". This is the first part of a three part tutorial.
This tutorial discusses the concept of the derivative, including the "first principles definition". This is the second part of a three part tutorial.
This tutorial discusses the concept of the derivative, including the "first principles definition". This is the third part of a three part tutorial.
This tutorial discusses the some basic derivative rules, including the Power Rule, Constant Multiple Rule and the Sum Rule. The Power Rule and Constant Multiple Rules are both proven. This is the first part of a three part tutorial.
This tutorial discusses the some basic derivative rules, including the Power Rule, Constant Multiple Rule and the Sum Rule. The Power Rule and Constant Multiple Rules are both proven. This is the second part of a three part tutorial.
This tutorial discusses the some basic derivative rules, including the Power Rule, Constant Multiple Rule and the Sum Rule. The Power Rule and Constant Multiple Rules are both proven. This is the third part of a three part tutorial.
This lesson shows how to use the Product Differentiation Rule.
This lesson shows how to differentiate a rational function using the Product Differentiation Rule and also introduces the Quotient Differentiation Rule. This is the first part of a two part lesson.
This lesson shows how to differentiate a rational function using the Product Differentiation Rule and also introduces the Quotient Differentiation Rule. This is the second part of a two part lesson.
This lesson discusses using the derivative to determine where a function is increasing or decreasing.
This lesson discusses the concept of concavity and how the Second Derivative Test works.
This tutorial demonstrates how to differentiate using the Chain Rule. The lesson also includes examples of differentiating both a composite function and using Leibniz notation (dy/dx = dy/du × du/dx). This is the first part of a three part tutorial.
This tutorial demonstrates how to differentiate using the Chain Rule. The lesson also includes examples of differentiating both a composite function and using Leibniz notation (dy/dx = dy/du × du/dx). This is the second part of a three part tutorial.
This tutorial demonstrates how to differentiate using the Chain Rule. The lesson also includes examples of differentiating both a composite function and using Leibniz notation (dy/dx = dy/du × du/dx). This is the third part of a three part tutorial.
This tutorial shows how to differentiate implicitly. Three examples are shown and the last one compares using the chain rule to implicit differentiation.