All Calculus AB Resources
Example Questions
Example Question #2 : Differentiate Inverse Trig Functions
Let . Evaluate .
First, take the derivative of the function
Especially when given inverse trigonometry derivative questions, be on the lookout for multiple functions embedded in the same problem. For example, in this problem there is both an outer function () and an inner function (). Because there is more than one function, chain rule must be applied; thus, the derivative of the inner function must be multiplied to the derivative of the outer function.
To reach the final answer, must be evaluated at .
Example Question #2 : Differentiate Inverse Trig Functions
Evaluate the following derivative:
This problem requires chain rule; there is an outer function () and an inner function ().
To simplify it further, square the and multiply the .
Example Question #2 : Differentiate Inverse Trig Functions
Evaluate the following derivative:
This problem requires chain rule, because there is an outer and inner function.
The outer function is and the inner is .
To fully simplify the expression, multiply the constants and square the term.
Example Question #3 : Differentiate Inverse Trig Functions
Let . What is ?
This is an example of when product rule must be used to find the derivative, because there are two functions ( and being multiplied together within .
Example Question #3 : Differentiate Inverse Trig Functions
Evaluate the following derivative:
Chain rule must be used to properly find the derivative, because there is an outer function of and an inner function of present.
To simplify further, the 10 in the numerator cancels out the 10 in the denominator.
Example Question #1 : Differentiate Inverse Trig Functions
Which derivative would produce the same expression as ?
By examining the inverse trigonometric function derivatives, it can be shown that . The derivatives of these two inverse functions are negatives of one another.
Example Question #1 : Differentiate Inverse Trig Functions
Let . Find .
This question invokes the use of chain rule.
Example Question #1 : Differentiate Inverse Trig Functions
Let . Find .
This question requires the use of chain rule. In this case, there are three functions to consider: first, ; second, the square root; and third, . In order to evaluate, the derivative of each of the three functions must be found and multiplied together.
Example Question #1 : Differentiate Inverse Trig Functions
Evaluate the following derivative:
This problem requires use of the chain rule twice; the first time addresses the inner function of while the second accounts for the function .
Example Question #1 : Differentiate Inverse Trig Functions
Evaluate the following derivative:
The in the original expression is a constant and can be multiplied to the identity written above.
When dealing with the derivative of , it is important to keep the standalone in the denominator in absolute value bars and to make sure there is a under the radical.