ONE:
- I Need Guidance On These Functions I Beg One Two Three Four 1 (45.24 KiB) Viewed 36 times
- I Need Guidance On These Functions I Beg One Two Three Four 2 (45.11 KiB) Viewed 36 times
- I Need Guidance On These Functions I Beg One Two Three Four 3 (43.8 KiB) Viewed 36 times
- I Need Guidance On These Functions I Beg One Two Three Four 4 (17.41 KiB) Viewed 36 times
- I Need Guidance On These Functions I Beg One Two Three Four 5 (63.18 KiB) Viewed 36 times
Graph the function f(x) = √(x + 4)² and its inverse from model 2. 10 ty 8- 6- 4- -2- -4. -6- -84 10+ O 8 10 + MARK + RELATIONSHIP ► LINEAR EXPONENTIAL QUADRATIC LOGARITHMIC CUSTOM + DATA
Graph the function f(x) 15x + 50 and its inverse from model 3. x+5 30 25 20 15 to $55 100 35- 30. 25- 20- 15. 10- 5- -5- -10- 15. -20- 10 25 30 35 40 O @. + MARK + RELATIONSHIP ► LINEAR EXPONENTIAL QUADRATIC LOGARITHMIC CUSTOM + DATA
Question 4 For each pair of graphs in part C, what relationship do you notice for f(x) and f¹(x)? BIU X² X₂ 15px Characters used: 0/ 15000 ^B^======
Model 1: Scientists developed a process of producing fresh water from salt water. The amount of fresh water produced from salt water in x hours can be found using a logarithmic function (base e) of f(x) = 3 + 2 ln x. In the function, the number 3 represents the amount of fresh water produced after 1 hour has passed and the number 2 represents the rate of production of fresh water. Model 2: Jack owns a company that manufactures a product that we'll call product A. After producing and selling x units of product A, the profit his company made is represented by the cube root function f (x) = √(x +4) ². Model 3: A biologist has tracked the population of Antarctic penguins in a marine reserve since 2012. He represents the population with the rational function f(x) = 15x+50, where x is the number of years that have passed since 2012 and f(x) is the number of penguins.