All AP Calculus BC Resources
Example Questions
Example Question #1 : Chain Rule And Implicit Differentiation
Find dy/dx by implicit differentiation:
To find dy/dx we must take the derivative of the given function implicitly. Notice the term will require the use of the Product Rule, because it is a composition of two separate functions multiplied by each other. Every other term in the given function can be derived in a straight-forward manner, but this term tends to mess with many students. Remember to use the Product Rule:
Product Rule:
Now if we take the derivative of each component of the given problem statement:
Notice that anytime we take the derivative of a term with x involved we place a "dx/dx" next to it, but this is equal to "1".
So this now becomes:
Now if we place all the terms with a "dy/dx" onto one side and factor out we can solved for it:
This is one of the answer choices.
Example Question #2 : Chain Rule And Implicit Differentiation
Find dx/dy by implicit differentiation:
To find dx/dy we must take the derivative of the given function implicitly. Notice the term will require the use of the Product Rule, because it is a composition of two separate functions multiplied by each other. Every other term in the given function can be derived in a straight-forward manner, but this term tends to mess with many students. Remember to use the Product Rule:
Product Rule:
Now if we take the derivative of each component of the given problem statement:
Notice that anytime we take the derivative of a term with y involved we place a "dy/dy" next to it, but this is equal to "1".
So this now becomes:
Now if we place all the terms with a "dx/dy" onto one side and factor out we can solved for it:
This is one of the answer choices.
Example Question #3 : Chain Rule And Implicit Differentiation
Use implicit differentiation to find the slope of the tangent line to at the point .
We must take the derivative because that will give us the slope. On the left side we'll get
, and on the right side we'll get .
We include the on the left side because is a function of , so its derivative is unknown (hence we are trying to solve for it!).
Now we can factor out a on the left side to get
and divide by in order to solve for .
Doing this gives you
.
We want to find the slope at , so we can sub in for and .
.
Example Question #4 : Chain Rule And Implicit Differentiation
Evaluate .
To find , substitute and use the chain rule:
Plug in 3:
Example Question #5 : Chain Rule And Implicit Differentiation
Evaluate .
Undefined
To find , substitute and use the chain rule:
So
and
Example Question #6 : Chain Rule And Implicit Differentiation
Evaluate .
Undefined
To find , substitute and use the chain rule:
Example Question #7 : Chain Rule And Implicit Differentiation
Evaluate .
To find , substitute and use the chain rule:
So
and
Example Question #8 : Chain Rule And Implicit Differentiation
Evaluate .
To find , substitute and use the chain rule:
So
and
Example Question #1 : Chain Rule And Implicit Differentiation
Consider this function a composition of two functions, f(g(x)). In this case, f(x) is ln(x) and g(x) is 3x - 7. The derivative of ln(x) is 1/x, and the derivative of 3x - 7 is 3. The derivative is then .
Example Question #1 : Chain Rule And Implicit Differentiation
Consider this function a composition of two functions, f(g(x)). In this case, and . According to the chain rule, . Here, and , so the derivative is