![SOLVED: (16) 10. Using the method of section 4.4 graph the following function: f(x) =r' 2x+ 4 AlI supporting work for derivatives, critical points, inflection points, etc must be shown. Meaning you SOLVED: (16) 10. Using the method of section 4.4 graph the following function: f(x) =r' 2x+ 4 AlI supporting work for derivatives, critical points, inflection points, etc must be shown. Meaning you](https://cdn.numerade.com/ask_images/6a6f033bf83e43d695a7fdd5f51e56cd.jpg)
SOLVED: (16) 10. Using the method of section 4.4 graph the following function: f(x) =r' 2x+ 4 AlI supporting work for derivatives, critical points, inflection points, etc must be shown. Meaning you
Extreme points, Local or relative maximum and local minimum, First derivative test, Second derivative test and concavity
![Finding a free maximum Derivatives and extreme points Using second derivatives to identify a maximum/minimum. - ppt download Finding a free maximum Derivatives and extreme points Using second derivatives to identify a maximum/minimum. - ppt download](https://images.slideplayer.com/17/5296586/slides/slide_7.jpg)
Finding a free maximum Derivatives and extreme points Using second derivatives to identify a maximum/minimum. - ppt download
![SOLVED: If f'(3) = 0 and f"(3) > 0, what conclusion can you dra There is a relative minimum at x = 3 There is a relative maximum at X = 3. SOLVED: If f'(3) = 0 and f"(3) > 0, what conclusion can you dra There is a relative minimum at x = 3 There is a relative maximum at X = 3.](https://cdn.numerade.com/ask_images/251d401d1af34930bb4eff140c2af4d3.jpg)