complex functions these derivatives involve embedded composite, product, and quotient rules. the...

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

OK, start with your product rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

OK, start with your product rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

OK, start with your product rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

OK, start with your product rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

OK, start with your product rule :

I like to use a and b as my two functions

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

OK, start with your product rule :

I like to use a and b as my two functions

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

OK, start with your product rule :

I like to use a and b as my two functions

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

OK, start with your product rule :

I like to use a and b as my two functions

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

OK, start with your product rule :

Product Rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

OK, start with your product rule :

Plugging everything into the product rule now gives :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

OK, start with your product rule :

Plugging everything into the product rule now gives :

SIMPLIFY !!!

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the quotient rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the quotient rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the quotient rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the quotient rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the quotient rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the quotient rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the quotient rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the quotient rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the quotient rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the quotient rule :

Plugging everything into the quotient rule now gives :

** you can stop here, this is your answer

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the chain rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the chain rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the chain rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the chain rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the chain rule :

Complex Functions

These derivatives involve embedded composite, product, and quotient rules. The functions f or g must be derived using another rule

- start with the chain rule :

Plugging everything into the chain rule now gives :