1 / 20

Mathematical Economics

Mathematical Economics. Concavity and Convexity Relative Extrima Inflection Points Optimization of Functions Optimization. Presented by:. Nadia Batool Roll No. 8528 Rabia Naseer Roll No. 8503 Madeeha Iqbal Roll No. 8523 Mumtaz Hussain Roll No. 8506.

osma
Télécharger la présentation

Mathematical Economics

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. Mathematical Economics Concavity and Convexity Relative Extrima Inflection Points Optimization of Functions Optimization

  2. Presented by: Nadia Batool Roll No. 8528 Rabia Naseer Roll No. 8503 Madeeha Iqbal Roll No. 8523 Mumtaz Hussain Roll No. 8506

  3. Increasing & Decreasing Function: • A function is said to be increasing/decreasing at if in the immediate vicinity of the point the graph of the function rises/falls as it moves from left to right. Since the first derivative measures the rate of change and slope of a function, a positive first derivative at indicate that the function is increasing at s; negative first derivative indicates it is decreasing.

  4. Increasing & Decreasing Function: Monotonic Function: A function that increases/decreases over its entire domain is called monotonic function. It is said to increase/decrease Monotonically .

  5. Concavity & Convexity : A function is concave at if in some small region close to the point the graph of the function lies completely below the tangent line. A function is convex at if in an area very close to the graph of the function lies completely above the tangent line. A positive second derivative at denotes that the function is convex at ; a negative second derivative at denotes the function is convex at a. The sign if first derivative is irrelevant for concavity.

  6. Concavity & Convexity :

  7. Concavity & Convexity :

  8. Relative Extrema:

  9. Inflection Points: An inflection point is a point on the graph where the function crosses its tangent line and changes from concave to convex or vice versa. Inflection points occur only where the second derivative equals to zero or is undefined. The sign of first derivative is immaterial.

  10. Inflection Points:

  11. Optimization of a Function: Optimization is the process of finding the relative maximum or minimum of a function. It is developed through usual differential functions • Step I: Take the first derivative, set it equal to zero, and solve for the critical points. This step represents the necessary condition know as the first-order condition. It identifies all the points at which the function is neither increasing nor decreasing, but at a plateau. All such points are candidates for a possible relative maximum or minimum

  12. Optimization of a Function: • Step II: Take the second derivative, evaluate it at the critical points and check the signs. If at a critical point a, Note that if the function is strictly concave/convex there will be only one maximum/minimum called a global maximum/global minimum.

  13. Optimization of a Function: Example Example:

  14. Optimization of a Function: Example

  15. Optimization: Step I: Find the critical values Step II: Test for concavity to determine relative maximum or minimum Step III: Check the inflection points Step IV: Evaluate the function at the critical values and inflection points. Example:

  16. Optimization: Example

  17. Optimization: Example

  18. Optimization: Example

  19. Questions ?

  20. Thanks: For Your Patience !

More Related