Brian McLogan
How to apply the evt to a cube root function along a closed interval
👉 Learn how to find the extreme values of a function using the extreme value theorem. The extreme values of a function are the points/intervals where the graph is decreasing, increasing, or has an inflection point. A theorem which...
Brian McLogan
Learn how to find the critical values of a polynomial
👉 Learn how to find the critical values of a function. The critical values of a function are the points where the graph turns. They are also called the turning points of a function. To obtain the critical points of a function, first, we...
Brian McLogan
Determine the extrema using the end points of a closed interval
👉 Learn how to find the extreme values of a function using the extreme value theorem. The extreme values of a function are the points/intervals where the graph is decreasing, increasing, or has an inflection point. A theorem which...
Brian McLogan
Determine the extrema of a function on a closed interval
👉 Learn how to find the extreme values of a function using the extreme value theorem. The extreme values of a function are the points/intervals where the graph is decreasing, increasing, or has an inflection point. A theorem which...
Sophia Learning
Sophia: Using Higher Derivatives of Position: Lesson 2
This lesson applies higher derivatives to situations involving position, velocity and acceleration. It is 2 of 7 in the series titled "Using Higher Derivatives of Position."
Sophia Learning
Sophia: Using Higher Derivatives of Position: Lesson 3
This lesson applies higher derivatives to situations involving position, velocity and acceleration. It is 3 of 7 in the series titled "Using Higher Derivatives of Position."
Sophia Learning
Sophia: Using Higher Derivatives of Position: Lesson 4
This lesson applies higher derivatives to situations involving position, velocity and acceleration. It is 4 of 7 in the series titled "Using Higher Derivatives of Position."
Sophia Learning
Sophia: Using Higher Derivatives of Position: Lesson 5
This lesson applies higher derivatives to situations involving position, velocity and acceleration. It is 5 of 7 in the series titled "Using Higher Derivatives of Position."
Sophia Learning
Sophia: Using Higher Derivatives of Position: Lesson 7
This lesson applies higher derivatives to situations involving position, velocity and acceleration. It is 7 of 7 in the series titled "Using Higher Derivatives of Position."