1 / 29

FUNCTIONS – Inverse of a function

FUNCTIONS – Inverse of a function. A general rule : If ( x , y ) is a point on a function, ( y , x ) is on the function’s inverse. FUNCTIONS – Inverse of a function. A general rule : If ( x , y ) is point on a function, ( y , x ) is on the function’s inverse.

wendi
Download Presentation

FUNCTIONS – Inverse of a function

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. FUNCTIONS – Inverse of a function A general rule : If ( x , y ) is a point on a function, ( y , x ) is on the function’s inverse.

  2. FUNCTIONS – Inverse of a function A general rule : If ( x , y ) is point on a function, ( y , x ) is on the function’s inverse. If you noticed, all that happened was x and y switched positions.

  3. FUNCTIONS – Inverse of a function A general rule : If ( x , y ) is point on a function, ( y , x ) is on the function’s inverse. EXAMPLE : The coordinate point ( 2 , - 4 ) is on ƒ( x ), what coordinate point is on it’s inverse ?

  4. FUNCTIONS – Inverse of a function A general rule : If ( x , y ) is point on a function, ( y , x ) is on the function’s inverse. EXAMPLE : The coordinate point ( 2 , - 4 ) is on ƒ( x ), what coordinate point is on it’s inverse ? ANSWER : ( - 4 , 2 ) - just switch x and y

  5. FUNCTIONS – Inverse of a function A general rule : If ( x , y ) is point on a function, ( y , x ) is on the function’s inverse. EXAMPLE : The coordinate point ( -5 , 10 ) is on ƒ( x ), what coordinate point is on it’s inverse ?

  6. FUNCTIONS – Inverse of a function A general rule : If ( x , y ) is point on a function, ( y , x ) is on the function’s inverse. EXAMPLE : The coordinate point ( -5 , 10 ) is on ƒ( x ), what coordinate point is on it’s inverse ? ANSWER : ( 10 , - 5 ) - just switch x and y

  7. FUNCTIONS – Inverse of a function A general rule : If ( x , y ) is point on a function, ( y , x ) is on the function’s inverse. - The notation for an inverse function is ƒ -1 - do not confuse this with a negative exponent

  8. FUNCTIONS – Inverse of a function When mapping a functions inverse just reverse the arrows…

  9. FUNCTIONS – Inverse of a function When mapping a functions inverse just, reverse the arrows… ƒ ( x ) Coordinate Points ( 3 , - 3 ) ( 4 , - 5 ) ( 5 , - 1 ) ( 6 , - 7 ) 3 -1 4 -3 5 -5 6 -7

  10. FUNCTIONS – Inverse of a function When mapping a functions inverse just, reverse the arrows… ƒ -1( x ) Coordinate Points ( - 3 , 3 ) ( - 5 , 4 ) ( -1 , 5 ) ( - 7 , 6 ) 3 -1 4 -3 5 -5 6 -7

  11. FUNCTIONS – Inverse of a function So far we’ve looked at two easy ways to find inverse function values using mapping and coordinate points. The last method is finding the ALGEBRAIC INVERSE… Steps : 1. Change f ( x ) to y 2. Switch your ‘x’ variable and your ‘y’ variable 3. Solve for ‘y’

  12. FUNCTIONS – Inverse of a function EXAMPLE : Find ƒ -1(x) of ƒ(x) = 2x – 3 1. y = 2x - 3 Steps : 1. Change f ( x ) to y 2. Switch your ‘x’ variable and your ‘y’ variable 3. Solve for ‘y’

  13. FUNCTIONS – Inverse of a function EXAMPLE : Find ƒ -1(x) of ƒ(x) = 2x – 3 1. y = 2x – 3 2. x = 2y – 3 Steps : 1. Change f ( x ) to y 2. Switch your ‘x’ variable and your ‘y’ variable 3. Solve for ‘y’

  14. FUNCTIONS – Inverse of a function EXAMPLE : Find ƒ -1(x) of ƒ(x) = 2x – 3 1. y = 2x – 3 2. x = 2y – 3 3. x + 3 = 2y - added 3 to both sides x + 3 = y - divided both sides by 2 2 Steps : 1. Change f ( x ) to y 2. Switch your ‘x’ variable and your ‘y’ variable 3. Solve for ‘y’

  15. FUNCTIONS – Inverse of a function EXAMPLE : Find ƒ -1(x) of ƒ(x) = 2x – 3 1. y = 2x – 3 2. x = 2y – 3 3. x + 3 = 2y - added 3 to both sides x + 3 = y - divided both sides by 2 2 Steps : 1. Change f ( x ) to y 2. Switch your ‘x’ variable and your ‘y’ variable 3. Solve for ‘y’ So :

  16. FUNCTIONS – Inverse of a function EXAMPLE : Find ƒ -1(x) of ƒ(x) = ( x – 3 ) 2 1. y = ( x – 3 ) 2 Steps : 1. Change f ( x ) to y 2. Switch your ‘x’ variable and your ‘y’ variable 3. Solve for ‘y’

  17. FUNCTIONS – Inverse of a function EXAMPLE : Find ƒ -1(x) of ƒ(x) = ( x – 3 ) 2 1. y = ( x – 3 ) 2 2. x = ( y – 3 ) 2 Steps : 1. Change f ( x ) to y 2. Switch your ‘x’ variable and your ‘y’ variable 3. Solve for ‘y’

  18. FUNCTIONS – Inverse of a function EXAMPLE : Find ƒ -1(x) of ƒ(x) = ( x – 3 ) 2 1. y = ( x – 3 ) 2 2. x = ( y – 3 ) 2 3. √x = √ ( y – 3 ) 2 - took square root of both sides Steps : 1. Change f ( x ) to y 2. Switch your ‘x’ variable and your ‘y’ variable 3. Solve for ‘y’

  19. FUNCTIONS – Inverse of a function EXAMPLE : Find ƒ -1(x) of ƒ(x) = ( x – 3 ) 2 1. y = ( x – 3 ) 2 2. x = ( y – 3 ) 2 3. √x = √ ( y – 3 ) 2 - took square root of both sides √x = y – 3 - add 3 to both sides Steps : 1. Change f ( x ) to y 2. Switch your ‘x’ variable and your ‘y’ variable 3. Solve for ‘y’

  20. FUNCTIONS – Inverse of a function EXAMPLE : Find ƒ -1(x) of ƒ(x) = ( x – 3 ) 2 1. y = ( x – 3 ) 2 2. x = ( y – 3 ) 2 3. √x = √ ( y – 3 ) 2 - took square root of both sides √x = y – 3 - add 3 to both sides √x + 3 = y Steps : 1. Change f ( x ) to y 2. Switch your ‘x’ variable and your ‘y’ variable 3. Solve for ‘y’ So :

  21. FUNCTIONS – Inverse of a function GRAPHING INVERSE FUNCTIONS STEPS : 1. Graph the given function using an ( x , y ) table - if the graph is already shown, pick some points 2. Graph the y = x line ( line of symmetry ) 3. Change your ( x , y ) points to ( y , x ) and graph them 4. Draw your function

  22. GRAPHING INVERSE FUNCTIONS STEPS : 1. Graph the given function using an ( x , y ) table - if the graph is already shown, pick some points 2. Graph the y = x line ( line of symmetry ) 3. Change your ( x , y ) points to ( y , x ) and graph them 4. Draw your function EXAMPLE : Graph ƒ -1(x) if ƒ(x) = 2x - 3 y x f (x) 0 1 -1 -3 -1 -5

  23. GRAPHING INVERSE FUNCTIONS STEPS : 1. Graph the given function using an ( x , y ) table - if the graph is already shown, pick some points 2. Graph the y = x line ( line of symmetry ) 3. Change your ( x , y ) points to ( y , x ) and graph them 4. Draw your function EXAMPLE : Graph ƒ -1(x) if ƒ(x) = 2x - 3 y x f (x) 0 1 -1 -3 -1 -5

  24. GRAPHING INVERSE FUNCTIONS STEPS : 1. Graph the given function using an ( x , y ) table - if the graph is already shown, pick some points 2. Graph the y = x line ( line of symmetry ) 3. Change your ( x , y ) points to ( y , x ) and graph them 4. Draw your function EXAMPLE : Graph ƒ -1(x) if ƒ(x) = 2x - 3 x f (x) y x y f -1(x) -3 -1 -5 0 1 -1 0 1 -1 -3 -1 -5

  25. GRAPHING INVERSE FUNCTIONS STEPS : 1. Graph the given function using an ( x , y ) table - if the graph is already shown, pick some points 2. Graph the y = x line ( line of symmetry ) 3. Change your ( x , y ) points to ( y , x ) and graph them 4. Draw your function EXAMPLE : Graph ƒ -1(x) if ƒ(x) = 2x - 3 ** notice that the two functions intersect where they cross the y = x line - These are good points to use to help draw you inverse function

  26. STEPS : 1. Graph the given function using an ( x , y ) table - if the graph is already shown, pick some points 2. Graph the y = x line ( line of symmetry ) 3. Change your ( x , y ) points to ( y , x ) and graph them 4. Draw your function Example : Graph the inverse of the given function POINTS : ( 9 , 3 ) ( 1 , 4 ) ( -1 , 3 ) ( - 3 , - 7 )

  27. STEPS : 1. Graph the given function using an ( x , y ) table - if the graph is already shown, pick some points 2. Graph the y = x line ( line of symmetry ) 3. Change your ( x , y ) points to ( y , x ) and graph them 4. Draw your function Example : Graph the inverse of the given function POINTS : ( 9 , 3 ) ( 1 , 4 ) ( -1 , 3 ) ( - 3 , - 7 ) ** notice where your function crosses the y = x line and plot those points …

  28. STEPS : 1. Graph the given function using an ( x , y ) table - if the graph is already shown, pick some points 2. Graph the y = x line ( line of symmetry ) 3. Change your ( x , y ) points to ( y , x ) and graph them 4. Draw your function Example : Graph the inverse of the given function POINTS : ( 9 , 3 ) ( 1 , 4 ) ( -1 , 3 ) ( - 3 , - 7 ) POINTS : ( 3 , 9 ) ( 4 , 1 ) ( 3 , - 1 ) ( - 7 , - 3 )

  29. STEPS : 1. Graph the given function using an ( x , y ) table - if the graph is already shown, pick some points 2. Graph the y = x line ( line of symmetry ) 3. Change your ( x , y ) points to ( y , x ) and graph them 4. Draw your function Example : Graph the inverse of the given function POINTS : ( 9 , 3 ) ( 1 , 4 ) ( -1 , 3 ) ( - 3 , - 7 ) POINTS : ( 3 , 9 ) ( 4 , 1 ) ( 3 , - 1 ) ( - 7 , - 3 )

More Related