All Calculus 2 Resources
Example Questions
Example Question #301 : Derivative Review
Find the derivative of the function:
The derivative of the function is equal to
and was found using the following rules:
, , ,
Note that the radical acts as the "outer" function using the first rule, the chain rule.
Example Question #301 : Derivatives
Find the derivative of the function:
The derivative of the function is equal to
and was found using the following rules:
,
Example Question #303 : Derivative Review
Find the derivative of the function:
The derivative of the function is equal to
and was found using the following rules:
, ,
Example Question #304 : Derivative Review
Find the derivative of the function:
The derivative of the function is equal to
and was found using the following rules:
, , ,
Example Question #305 : Derivative Review
Find the derivative of the function:
The derivative of the function is equal to
and was found using the following rules:
, ,
Example Question #302 : Derivative Review
Find the first derivative of the function:
The derivative of the function is equal to
and was found using the following rules:
, , ,
Example Question #103 : First And Second Derivatives Of Functions
Find the second derivative of
To find the second derivative of a function, we must first find the first derivative.
Now, we must differentiate this function. The first part is a straightforward trigonometric derivative. For the second term, we must use the chain rule.
Example Question #104 : First And Second Derivatives Of Functions
Find the derivative of .
The derivative of is special because it returns back the original function .
Therefore, this derivative is simply a chain rule application of that exponential function.
Recall the chain rule is,
Applying this rule to the original function results in the following derivative.
Example Question #105 : First And Second Derivatives Of Functions
Find the second derivative of
To get to the second derivative, we must first take the first derivative!
Then, we will differentiate that to get our answer.
Recall the trigonometric derivatives:
Example Question #302 : Derivatives
What is the derivative of ?
When taking the derivative, multiply the exponent by the coefficient in front of the x term and then subtract one from the exponent. Therefore, the answer is:
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