1 / 29

Chain Rule :

Chain Rule :. Used to find the derivative of a composite function. Chain Rule :. Used to find the derivative of a composite function. Chain Rule :. Used to find the derivative of a composite function. Chain Rule :. Used to find the derivative of a composite function. Chain Rule :.

stu
Télécharger la présentation

Chain Rule :

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chain Rule : Used to find the derivative of a composite function.

  2. Chain Rule : Used to find the derivative of a composite function.

  3. Chain Rule : Used to find the derivative of a composite function.

  4. Chain Rule : Used to find the derivative of a composite function.

  5. Chain Rule : Used to find the derivative of a composite function. Remember when we looked at functions as a composite of two original functions ?

  6. Chain Rule : Used to find the derivative of a composite function. Remember when we looked at functions as a composite of two original functions ?

  7. Chain Rule : Used to find the derivative of a composite function. Remember when we looked at functions as a composite of two original functions ?

  8. Chain Rule : Used to find the derivative of a composite function. Remember when we looked at functions as a composite of two original functions ?

  9. Chain Rule : Used to find the derivative of a composite function. Remember when we looked at functions as a composite of two original functions ?

  10. Chain Rule : Used to find the derivative of a composite function. Remember when we looked at functions as a composite of two original functions ?

  11. Chain Rule : Used to find the derivative of a composite function. Remember when we looked at functions as a composite of two original functions ?

  12. Chain Rule : Used to find the derivative of a composite function.

  13. Chain Rule : Used to find the derivative of a composite function.

  14. Chain Rule : Used to find the derivative of a composite function.

  15. Chain Rule : Used to find the derivative of a composite function.

  16. Chain Rule : Used to find the derivative of a composite function.

  17. Chain Rule : Used to find the derivative of a composite function.

  18. Chain Rule : Used to find the derivative of a composite function. In trigonometry, a complex angle is a viewed as a composite function…

  19. Chain Rule : Used to find the derivative of a composite function.

  20. Chain Rule : Used to find the derivative of a composite function.

  21. Chain Rule : Used to find the derivative of a composite function.

  22. Chain Rule : Used to find the derivative of a composite function.

  23. Chain Rule : Used to find the derivative of a composite function. In trigonometry, a function with an exponent is viewed as a composite function…

  24. Chain Rule : Used to find the derivative of a composite function.

  25. Chain Rule : Used to find the derivative of a composite function.

  26. Chain Rule : Used to find the derivative of a composite function.

  27. Chain Rule : Used to find the derivative of a composite function. There is somewhat of a shortcut that you can use that is similar to our other shortcut…

  28. Chain Rule : Used to find the derivative of a composite function. There is somewhat of a shortcut that you can use that is similar to our other shortcut… Multiply the exponent out front, keep what is in parentheses, reduce your exponent by one, and take the INSIDE derivative and multiply…

  29. Chain Rule : Used to find the derivative of a composite function. There is somewhat of a shortcut that you can use that is similar to our other shortcut… Multiply the exponent out front, keep what is in parentheses, reduce your exponent by one, and take the INSIDE derivative and multiply… This answer will be fine, no need to simplify

More Related